This document provides information about ROSA Group, a Polish company that has been producing outdoor lighting products since 1992. It employs around 250 people across three production plants in Tychy, Poland and two sister companies abroad. ROSA specializes in aluminum lighting columns, poles, and luminaires for outdoor spaces. The document discusses ROSA's production processes, quality standards, technical specifications of its aluminum columns, and anodizing process to protect and color the aluminum surfaces.
this ppt covers the entire control room in National Building Code of India which prescribe code of safety in NBC and design standards for planning control room. and rest of the missing data will fine in NBC, 2016
Plumbing Design Package includes over (18) Programs and Forms that include: "accurate" water pipe system sizing, waste and vent system sizing, roof drain system sizing, natural gas system sizing, water heater sizing, and several additional Plumbing Design tools.
HVAC System (Heating, Ventilation and Air Conditioning)Maliha Mehr
The document discusses heating, ventilation, and air conditioning (HVAC) systems. It describes the basic components and processes of heating, ventilation, and air conditioning. For heating, it discusses central heating systems using hot water or steam, and electric heating. For ventilation, it covers natural ventilation using windows and mechanical ventilation using fans. For air conditioning, it explains the basic operations of removing heat from indoor air and transferring it outside using a refrigerant in a compressor, condenser, evaporator coil, and blower. In summary, the document provides an overview of the key components, processes, and general effects of HVAC systems.
The document discusses fire protection systems. It covers types of fires and fire extinguishers, fire detection equipment, fire suppression systems like sprinklers and standpipes, and safety measures. It provides details on different classes of fires and types of extinguishers like water, powder, foam, CO2, and wet chemical. It also covers fire detection, alarm systems, pumps, and features of sprinkler, dry riser, and wet riser systems. Training and maintenance of these systems is important for fire safety.
Experimental analysis of phytorid technology installed in sewageSHASHANK SRIVASTAVA
The document analyzes the performance of a phytorid technology sewage disposal system. Phytorid technology uses constructed wetlands with reeds to treat sewage through physical, biological, and chemical processes. The analysis tests parameters like pH, turbidity, BOD, and more on an experimental phytorid bed prototype treating 90 liters of sewage with a 24 hour retention period. Results found the system effectively treats sewage with negligible costs and maintenance needs while producing effluent water that can be reused. In conclusion, decentralized phytorid systems are an efficient wastewater treatment approach for local communities given sufficient land area.
The document discusses HVAC (heating, ventilation, and air conditioning) systems. It describes common components of HVAC systems like thermostats, furnaces, air filters, heat exchangers, evaporator coils, condensing units, ductwork, and vents. It explains how these components work together to heat, cool, filter, and circulate air to maintain appropriate temperature and humidity levels. The document also discusses air handling units, which condition and circulate air, and their key components like filters, fans, and sensors. Finally, it briefly mentions the importance of HVAC system commissioning to ensure proper installation, documentation, training, and ongoing performance monitoring.
Fundamentals of HVAC Systems is a thorough introduction on how HVAC systems control temperature, air quality and air circulation in a conditioned space.
Ideal for recent engineering graduates working in the HVAC&R industry, experienced engineers entering HVAC&R from another engineering area, as well as architects, technicians, construction or building management professionals who need to increase their knowledge of HVAC systems.
This course reader can function as a stand-alone reference, or may accompany the eLearning course, Fundamentals of HVAC Systems, online modules.
The document provides an overview of HVAC systems, including key components and design considerations. It discusses the importance of HVAC for construction professionals due to costs, space requirements, and impact on building performance. The document then outlines the process of designing an HVAC system and various refrigeration, heating, cooling, and distribution options to consider. It provides pros and cons of different centralized and decentralized system types and highlights important coordination and specification details.
this ppt covers the entire control room in National Building Code of India which prescribe code of safety in NBC and design standards for planning control room. and rest of the missing data will fine in NBC, 2016
Plumbing Design Package includes over (18) Programs and Forms that include: "accurate" water pipe system sizing, waste and vent system sizing, roof drain system sizing, natural gas system sizing, water heater sizing, and several additional Plumbing Design tools.
HVAC System (Heating, Ventilation and Air Conditioning)Maliha Mehr
The document discusses heating, ventilation, and air conditioning (HVAC) systems. It describes the basic components and processes of heating, ventilation, and air conditioning. For heating, it discusses central heating systems using hot water or steam, and electric heating. For ventilation, it covers natural ventilation using windows and mechanical ventilation using fans. For air conditioning, it explains the basic operations of removing heat from indoor air and transferring it outside using a refrigerant in a compressor, condenser, evaporator coil, and blower. In summary, the document provides an overview of the key components, processes, and general effects of HVAC systems.
The document discusses fire protection systems. It covers types of fires and fire extinguishers, fire detection equipment, fire suppression systems like sprinklers and standpipes, and safety measures. It provides details on different classes of fires and types of extinguishers like water, powder, foam, CO2, and wet chemical. It also covers fire detection, alarm systems, pumps, and features of sprinkler, dry riser, and wet riser systems. Training and maintenance of these systems is important for fire safety.
Experimental analysis of phytorid technology installed in sewageSHASHANK SRIVASTAVA
The document analyzes the performance of a phytorid technology sewage disposal system. Phytorid technology uses constructed wetlands with reeds to treat sewage through physical, biological, and chemical processes. The analysis tests parameters like pH, turbidity, BOD, and more on an experimental phytorid bed prototype treating 90 liters of sewage with a 24 hour retention period. Results found the system effectively treats sewage with negligible costs and maintenance needs while producing effluent water that can be reused. In conclusion, decentralized phytorid systems are an efficient wastewater treatment approach for local communities given sufficient land area.
The document discusses HVAC (heating, ventilation, and air conditioning) systems. It describes common components of HVAC systems like thermostats, furnaces, air filters, heat exchangers, evaporator coils, condensing units, ductwork, and vents. It explains how these components work together to heat, cool, filter, and circulate air to maintain appropriate temperature and humidity levels. The document also discusses air handling units, which condition and circulate air, and their key components like filters, fans, and sensors. Finally, it briefly mentions the importance of HVAC system commissioning to ensure proper installation, documentation, training, and ongoing performance monitoring.
Fundamentals of HVAC Systems is a thorough introduction on how HVAC systems control temperature, air quality and air circulation in a conditioned space.
Ideal for recent engineering graduates working in the HVAC&R industry, experienced engineers entering HVAC&R from another engineering area, as well as architects, technicians, construction or building management professionals who need to increase their knowledge of HVAC systems.
This course reader can function as a stand-alone reference, or may accompany the eLearning course, Fundamentals of HVAC Systems, online modules.
The document provides an overview of HVAC systems, including key components and design considerations. It discusses the importance of HVAC for construction professionals due to costs, space requirements, and impact on building performance. The document then outlines the process of designing an HVAC system and various refrigeration, heating, cooling, and distribution options to consider. It provides pros and cons of different centralized and decentralized system types and highlights important coordination and specification details.
BS5 - Lecture 1 Mechanical and Natural VentilationSiddharth Khanna
This document discusses mechanical and natural ventilation. It provides information on:
- The aims of ventilation which are to introduce fresh air and remove stale air to preserve indoor air quality and control temperature and humidity.
- Natural ventilation occurs through purpose-provided openings that use wind and temperature differences to move air through a building.
- Factors that influence natural ventilation rates include building design, location and size of openings, wind speeds, and indoor-outdoor temperature differences. Natural ventilation lowers energy costs compared to mechanical ventilation.
Complete hvac ppt by kk 354647.pptx 1234KRISHAN KUMAR
This document provides an overview of heating, ventilation, and air conditioning (HVAC) systems. It discusses the history and development of HVAC, including early innovations in refrigeration. The core components and functions of HVAC systems are described, such as furnaces, ducts, air conditioners, and heat pumps. Various types of HVAC installations and systems are covered, like central air, zoned heating, and radiant heat. Recent developments in HVAC technology and applications are also summarized along with the advantages and disadvantages of HVAC.
This document discusses sustainable wastewater treatment. It begins by defining wastewater and its sources. It then describes different types of wastewater and various treatment methods including physical, chemical, and biological unit operations and processes. Common wastewater treatment systems including preliminary, primary, secondary, and tertiary treatment are also outlined. Finally, it discusses sustainable treatment types such as lagoons/wetlands and anaerobic digestion and their advantages for wastewater treatment and reuse.
The document provides information on fire protection systems. It discusses the causes and types of fires, as well as the fire triangle concept involving oxygen, heat, fuel and chemical reaction. It also covers fire hazards, protection, prevention methods like inspections and detection systems. Fire fighting equipment like standpipes, sprinklers, alarms and different types of fire extinguishers are explained.
This document discusses ventilation and HVAC systems. It defines ventilation and explains why it is important for human respiration, diluting odors, removing combustion products, and providing a comfortable thermal environment. It describes natural and artificial ventilation systems. For artificial systems, it covers exhaust, plenum, exhaust-plenum, evaporative cooling, air conditioning, and different types of HVAC equipment. It emphasizes the functional requirements of an effective ventilation system.
The document discusses heating, ventilation, and air conditioning (HVAC) systems in health care facilities. It covers the history of HVAC in hospitals and the importance of controlling air quality and airflow patterns to prevent infection transmission. Proper HVAC design criteria for health care facilities include higher air filtration, controlled ventilation and pressure between rooms, consideration of temperature and humidity needs for different areas. Key areas that require special HVAC design attention are operating rooms, isolation rooms, and intensive care units.
This document contains a 20 question fire safety training quiz for staff at SRM Institute for Medical Sciences (SIMS). It covers topics like fire classification, fire extinguisher use, emergency procedures, and fire triangle components. Multiple choice questions test knowledge of what type of fire different classes correspond to, how to operate fire extinguishers using the PASS method, emergency contact numbers, assembly points, and personal protective equipment for firefighting.
Material separation and processing techniques in waste management (1)kanzaaaa
This document discusses various material separation and processing techniques used in waste management. It begins with an introduction to waste separation and its purposes. It then outlines different separation processes like picking, screening, magnetic separation, air classification, optical separation, eddy current methods, and flotation. Each process is described in detail with examples. The document also discusses how separated materials like plastics, paper, glass, and metals can be further processed and recycled. It concludes that the appropriate separation and processing techniques depend on the type of waste and intended use of recovered materials.
The document summarizes key aspects of HVAC systems. HVAC systems aim to provide thermal comfort and indoor air quality. They work by heating, cooling, and circulating air within buildings. Common components include furnaces, heat pumps, air ducts, and air conditioners which use refrigeration cycles to cool indoor air. Proper ventilation and maintenance of filters are important for the effective and safe operation of HVAC systems.
Gas Installation Guidelines for Designers and Builders - Domestic SitesGas Networks Ireland
1. This document provides guidelines for designers and builders on installing gas meters and pipes for domestic sites connecting to the natural gas network.
2. It outlines permitted locations for gas meters, such as externally above the damp proof course and at least 300mm from the property wall. Internal meter locations are allowed only if external options are not possible and gas pressure is below 100mbar.
3. Trench requirements are specified for gas mains and connection pipes, including minimum depths, widths, and 150mm sand surround. Safety procedures are also outlined, such as not using excavators within 1m of gas pipes.
Presentation made for the city and town planning officers, Centre for Climate Change and Environment Advisory, Dr. MCR-HRD IAP, by Dr. N. Sai Bhaskar Reddy
The document presents information about HVAC (Heating, Ventilation, and Air Conditioning) systems. It defines HVAC as the system used to control temperature, humidity, and air quality. The key components of an HVAC system are described as ducts, vents, filters, fans/blowers, furnaces, humidifiers, heat exchangers, cooling coils, air handling units, compressors, condensing units, and evaporator coils. The mechanisms of heating, ventilation, and air conditioning are also explained.
This document discusses ventilation techniques for firefighters. It defines ventilation as the systematic removal of combustion byproducts to relieve heat and remove smoke and toxic gases. It identifies different types of ventilation including natural, mechanical, hydraulic, and various roof ventilation cuts. It emphasizes the importance of considering safety, obstacles, and factors that can affect ventilation when deploying these techniques. The goal is to use ventilation strategically as a tool to fight fires while avoiding risks to firefighters or fire spread.
HVAC systems are designed to heat, cool, and ventilate indoor spaces for human comfort. Heating increases temperature while cooling decreases it. Ventilation maintains indoor air quality through exhaust and fresh air. Air conditioning alters temperature, humidity, and air quality. Common HVAC systems include window units for single rooms, split units with indoor and outdoor components, packaged units for medium loads, and central air for large buildings. Vapor compression is the most widely used refrigeration cycle, involving an evaporator, compressor, condenser, and expansion valve.
Hospitals generate wastewater containing pathogens, pharmaceuticals, heavy metals and other pollutants. This wastewater requires specialized treatment to remove contaminants before discharge. A biological MBBR/IFAS process using Levapor carriers is an effective treatment method. The porous carriers adsorb inhibitory substances and pollutants, allowing specialized biofilm to develop and remove contaminants through biological and chemical processes. This results in consistently high quality effluent meeting discharge standards.
The document discusses heating, ventilation, and air conditioning (HVAC) systems. It defines HVAC and describes its main functions of temperature control, humidity control, pressure regulation, and air circulation. It outlines the major components of HVAC systems including air handling units, ducting systems, and air diffusers/grilles. Air handling units have components like filters, heating/cooling coils, humidifiers/dehumidifiers, and fans. Ducting systems distribute conditioned air through ducts in various shapes and materials. Diffusers/registers release supply air into a space in a regulated fashion.
This presentation introduces the reader to the concept of life cycle costing (LCC) and its current status and latest developments.
Presented by Christine Storry - PIPEN Project Manager
The document provides an overview of smart buildings and intelligent building standards. It discusses the history and definitions of intelligent buildings (IB), the IB market, IB architecture, building management systems (BMS), life cycle costing and IB, pros and cons of IB, and the future of IB. It also includes a case study on the Smart Building Center in Jasin. The document compares human intelligence to building intelligence and outlines the foundations of a smart building including open communication protocols and wireless technologies. It also discusses various IB systems such as access, fire alarm, HVAC, audiovisual, lighting, parking management, smart water management, elevators and escalators management.
Advanced Modern Building Products Co. Ltd. (Al-Sanabel) manufactures and trades building materials and provides construction contracting services. Its mission is to become a world-class manufacturer and supplier of high-quality building products to local and international markets. Al-Sanabel is committed to customer satisfaction, an innovative culture, and learning from the market to meet customer needs. The company manufactures a variety of steel and building products and aims to be a leading global supplier through constant improvement, research, and innovation.
EXCO COLOMBIANA S.A. is a Colombian tube manufacturing company with facilities covering 75,400 square feet. It was originally established as a branch of the American steel company ARMCO Inc. EXCO offers a wide range of value-added tubular solutions including cutting, bending, punching, welding, and powder coating of mechanical steel tubes. Their goal is to develop customers through customized tubular products and achieve high satisfaction levels.
BS5 - Lecture 1 Mechanical and Natural VentilationSiddharth Khanna
This document discusses mechanical and natural ventilation. It provides information on:
- The aims of ventilation which are to introduce fresh air and remove stale air to preserve indoor air quality and control temperature and humidity.
- Natural ventilation occurs through purpose-provided openings that use wind and temperature differences to move air through a building.
- Factors that influence natural ventilation rates include building design, location and size of openings, wind speeds, and indoor-outdoor temperature differences. Natural ventilation lowers energy costs compared to mechanical ventilation.
Complete hvac ppt by kk 354647.pptx 1234KRISHAN KUMAR
This document provides an overview of heating, ventilation, and air conditioning (HVAC) systems. It discusses the history and development of HVAC, including early innovations in refrigeration. The core components and functions of HVAC systems are described, such as furnaces, ducts, air conditioners, and heat pumps. Various types of HVAC installations and systems are covered, like central air, zoned heating, and radiant heat. Recent developments in HVAC technology and applications are also summarized along with the advantages and disadvantages of HVAC.
This document discusses sustainable wastewater treatment. It begins by defining wastewater and its sources. It then describes different types of wastewater and various treatment methods including physical, chemical, and biological unit operations and processes. Common wastewater treatment systems including preliminary, primary, secondary, and tertiary treatment are also outlined. Finally, it discusses sustainable treatment types such as lagoons/wetlands and anaerobic digestion and their advantages for wastewater treatment and reuse.
The document provides information on fire protection systems. It discusses the causes and types of fires, as well as the fire triangle concept involving oxygen, heat, fuel and chemical reaction. It also covers fire hazards, protection, prevention methods like inspections and detection systems. Fire fighting equipment like standpipes, sprinklers, alarms and different types of fire extinguishers are explained.
This document discusses ventilation and HVAC systems. It defines ventilation and explains why it is important for human respiration, diluting odors, removing combustion products, and providing a comfortable thermal environment. It describes natural and artificial ventilation systems. For artificial systems, it covers exhaust, plenum, exhaust-plenum, evaporative cooling, air conditioning, and different types of HVAC equipment. It emphasizes the functional requirements of an effective ventilation system.
The document discusses heating, ventilation, and air conditioning (HVAC) systems in health care facilities. It covers the history of HVAC in hospitals and the importance of controlling air quality and airflow patterns to prevent infection transmission. Proper HVAC design criteria for health care facilities include higher air filtration, controlled ventilation and pressure between rooms, consideration of temperature and humidity needs for different areas. Key areas that require special HVAC design attention are operating rooms, isolation rooms, and intensive care units.
This document contains a 20 question fire safety training quiz for staff at SRM Institute for Medical Sciences (SIMS). It covers topics like fire classification, fire extinguisher use, emergency procedures, and fire triangle components. Multiple choice questions test knowledge of what type of fire different classes correspond to, how to operate fire extinguishers using the PASS method, emergency contact numbers, assembly points, and personal protective equipment for firefighting.
Material separation and processing techniques in waste management (1)kanzaaaa
This document discusses various material separation and processing techniques used in waste management. It begins with an introduction to waste separation and its purposes. It then outlines different separation processes like picking, screening, magnetic separation, air classification, optical separation, eddy current methods, and flotation. Each process is described in detail with examples. The document also discusses how separated materials like plastics, paper, glass, and metals can be further processed and recycled. It concludes that the appropriate separation and processing techniques depend on the type of waste and intended use of recovered materials.
The document summarizes key aspects of HVAC systems. HVAC systems aim to provide thermal comfort and indoor air quality. They work by heating, cooling, and circulating air within buildings. Common components include furnaces, heat pumps, air ducts, and air conditioners which use refrigeration cycles to cool indoor air. Proper ventilation and maintenance of filters are important for the effective and safe operation of HVAC systems.
Gas Installation Guidelines for Designers and Builders - Domestic SitesGas Networks Ireland
1. This document provides guidelines for designers and builders on installing gas meters and pipes for domestic sites connecting to the natural gas network.
2. It outlines permitted locations for gas meters, such as externally above the damp proof course and at least 300mm from the property wall. Internal meter locations are allowed only if external options are not possible and gas pressure is below 100mbar.
3. Trench requirements are specified for gas mains and connection pipes, including minimum depths, widths, and 150mm sand surround. Safety procedures are also outlined, such as not using excavators within 1m of gas pipes.
Presentation made for the city and town planning officers, Centre for Climate Change and Environment Advisory, Dr. MCR-HRD IAP, by Dr. N. Sai Bhaskar Reddy
The document presents information about HVAC (Heating, Ventilation, and Air Conditioning) systems. It defines HVAC as the system used to control temperature, humidity, and air quality. The key components of an HVAC system are described as ducts, vents, filters, fans/blowers, furnaces, humidifiers, heat exchangers, cooling coils, air handling units, compressors, condensing units, and evaporator coils. The mechanisms of heating, ventilation, and air conditioning are also explained.
This document discusses ventilation techniques for firefighters. It defines ventilation as the systematic removal of combustion byproducts to relieve heat and remove smoke and toxic gases. It identifies different types of ventilation including natural, mechanical, hydraulic, and various roof ventilation cuts. It emphasizes the importance of considering safety, obstacles, and factors that can affect ventilation when deploying these techniques. The goal is to use ventilation strategically as a tool to fight fires while avoiding risks to firefighters or fire spread.
HVAC systems are designed to heat, cool, and ventilate indoor spaces for human comfort. Heating increases temperature while cooling decreases it. Ventilation maintains indoor air quality through exhaust and fresh air. Air conditioning alters temperature, humidity, and air quality. Common HVAC systems include window units for single rooms, split units with indoor and outdoor components, packaged units for medium loads, and central air for large buildings. Vapor compression is the most widely used refrigeration cycle, involving an evaporator, compressor, condenser, and expansion valve.
Hospitals generate wastewater containing pathogens, pharmaceuticals, heavy metals and other pollutants. This wastewater requires specialized treatment to remove contaminants before discharge. A biological MBBR/IFAS process using Levapor carriers is an effective treatment method. The porous carriers adsorb inhibitory substances and pollutants, allowing specialized biofilm to develop and remove contaminants through biological and chemical processes. This results in consistently high quality effluent meeting discharge standards.
The document discusses heating, ventilation, and air conditioning (HVAC) systems. It defines HVAC and describes its main functions of temperature control, humidity control, pressure regulation, and air circulation. It outlines the major components of HVAC systems including air handling units, ducting systems, and air diffusers/grilles. Air handling units have components like filters, heating/cooling coils, humidifiers/dehumidifiers, and fans. Ducting systems distribute conditioned air through ducts in various shapes and materials. Diffusers/registers release supply air into a space in a regulated fashion.
This presentation introduces the reader to the concept of life cycle costing (LCC) and its current status and latest developments.
Presented by Christine Storry - PIPEN Project Manager
The document provides an overview of smart buildings and intelligent building standards. It discusses the history and definitions of intelligent buildings (IB), the IB market, IB architecture, building management systems (BMS), life cycle costing and IB, pros and cons of IB, and the future of IB. It also includes a case study on the Smart Building Center in Jasin. The document compares human intelligence to building intelligence and outlines the foundations of a smart building including open communication protocols and wireless technologies. It also discusses various IB systems such as access, fire alarm, HVAC, audiovisual, lighting, parking management, smart water management, elevators and escalators management.
Advanced Modern Building Products Co. Ltd. (Al-Sanabel) manufactures and trades building materials and provides construction contracting services. Its mission is to become a world-class manufacturer and supplier of high-quality building products to local and international markets. Al-Sanabel is committed to customer satisfaction, an innovative culture, and learning from the market to meet customer needs. The company manufactures a variety of steel and building products and aims to be a leading global supplier through constant improvement, research, and innovation.
EXCO COLOMBIANA S.A. is a Colombian tube manufacturing company with facilities covering 75,400 square feet. It was originally established as a branch of the American steel company ARMCO Inc. EXCO offers a wide range of value-added tubular solutions including cutting, bending, punching, welding, and powder coating of mechanical steel tubes. Their goal is to develop customers through customized tubular products and achieve high satisfaction levels.
Cablofil steel wire cable tray systems are designed for fast and simple installation. Cablofil was introduced in the UK in the 1990s and has since led the steel wire cable tray revolution. As part of Legrand UK's cable management business unit, Cablofil products are supported by experts with in-depth knowledge of cable management solutions. The document provides information on Cablofil's steel wire cable tray products including straight lengths, couplers, fixing components, covers, and accessories.
Akkord Steel Construction Company LLC includes "Khirdalan steel structures plant" in Khirdalan city,
"Balakhani Constructional Ironworks" in Balakhani settlement and "Mingachevir Mechanical
Engineering Plant" in Mingachevir city.
The above plants are equipped with technical equipment, 3 and 4 axis shafts, plasma cutters, cutting,
boring, and planing machines along X, Y, Z axes, saws, pipe-, angle-, and channel-bending machines,
powder and gas welding machines, lathes, millers, drilling-, grinding-, slotting-, and clampingmachines,
sanding-painting lines, and absorbed painting lines; manufactured mainly in Finland,
Germany, Turkey, the USA, and Russia.
Due to full compliance of the quality of manufactured products with the requirements of ISO 9001-2010
international standard, the State Committee of Metrology and Patents of the Republic of Azerbaijan has
issued a certificate of conformity to our plants.
EOL Vent Mining AB - We provide Underground Ventilation Systems Worldwide !Glenn Milton Dannberg
Our company is a Swedish prime supplier of underground ventilation systems to mining and tunneling projects worldwide.
Our turnkey ventsystems provides lower energy consumptions together with minimum maintenance that all will reduce your operational expenses. For more details: www.eolvent.com
For further information pls contact : milton.dannberg@usa.net
EOL Ventsystem provides ventilation solutions for underground mining, including axial fans, silencers, diffusers, and ventilation monitoring equipment. They have over 100 years of experience in mining ventilation and their products are tested to international standards. Their modular fan systems can be customized and scaled to meet the specific airflow needs of a mine.
Rolec India Pvt. Ltd. manufactures and supplies a wide range of enclosures, cable glands, and suspension systems. The company was established in 2008 and produces aluminum, polyester, and EX enclosures using high-grade materials. Rolec India has a large, state-of-the-art infrastructure and focuses on innovative packaging to ensure safe delivery of durable, robust products that meet industry standards.
Rolec India Pvt. Ltd. manufactures and supplies a wide range of enclosures, cable glands, and suspension systems. The company was established in 2008 and produces aluminum, polyester, and EX enclosures using high-grade materials. Rolec India has a large, state-of-the-art infrastructure and focuses on innovative packaging to ensure safe delivery of durable, robust products that meet industry standards.
The document discusses ESAB's range of welding consumables for pipeline welding. It provides an overview of ESAB's cellulosic electrodes for pipeline welding under the Pipeweld brand. The Pipeweld 6010P/PLUS, 7010 PLUS, 8010 PLUS, and 9010 PLUS electrodes are recommended for different applications depending on the API 5L pipe steel grade, from root pass to fill and cap. The electrodes provide high deposition rates and quality welds for grades up to X70. While cellulosic electrodes are widely used for pipelines, their higher hydrogen content requires caution for thicker sections to avoid cracking.
Cablofil are the world leader in the design and innovation of wire mesh cable basket tray providing the highest quality cable support and containment. Power cable installations require reliable, tested and trusted containment - Cablofil provides strong, fast, safe, clean and ventilated cable containment and support.
The Cablofil Wiremesh Cable Tray concept based upon performance, safety and economy - 3 qualities which make Cablofil Wiremesh Cable Tray system preferred by installers. Cablofil adapts to the most complex cable containment configurations and its structure gives maximum strength for minimum weight. The ease of creating Cablofil fittings, carried out on site, as well as the wide range of unique and universal accessories gives complete freedom in cable routing combined with exceptionally fast installation. See for yourself and don't look back - contact T&D UK for an on-site Cablofil product demo.
Not Just for Data Cables.....Cablofil Contains & Supports Power Cables :
Cablofil cable basket provides low and high voltage power cable containment with excellent short circuit withstand (70kA, 100kA and 130kA fault current ratings) and mechanical loading performance to IEC61537.
Power Generation & Transmission - Cablofil cable basket demonstrates remarkable short circuit withstand for effective containment for low and high voltage (11-33kV) cable networks.
Hazardous Area Installations - Cablofil cable basket withstands degradation and attack caused by aggressive acids, solvents and chemicals providing high level corrosion resistance and containment of power, control and instrumentation cables in the oil, gas and petrochemicals industries.
This document provides information on Pioneer Power International, an ISO 9001:2008 certified company that manufactures and exports a wide range of electrical products including copper and aluminum cable lugs and connectors. The company has two factory units in India that produce products according to strict quality control conditions. Pioneer Power International operates globally and has a strong international presence in over 25 countries. The document includes the company's quality policy and lists over 60 electrical product names and specifications that Pioneer Power International manufactures.
Key assets "UMMC-Non-Ferrous Metals" are concentrated in the mining industry, non-ferrous metallurgy and automotive industry. The frame of the company is a closed process chain for copper production: starting with raw materials extraction and finishing with end products manufactured on the basis of these raw materials (copper wire rod, copper mill products, cabling and wiring, radiators).
This document provides information on various fall protection products offered by Heightsafe Systems including freestanding weighted guardrails, fixed guardrails, collapsible guardrails, parapet guardrails, horizontal safety line and lifeline cable systems, composite safety line systems, concrete deck safety line systems, safety line systems for standing seam roofs, overhead horizontal track systems, and mobile man anchors. It describes the key components, benefits, applications and compliance of each product type. Contact information is provided at the top for Heightsafe Systems.
ZOLLERN COMPANY PROFILE IMAGE PRODUCT DIVISIONS Z512Puneet Sharma
The document describes the various product divisions of ZOLLERN Group, an internationally successful supplier of high-tech parts and systems. It discusses their drive systems, castings, machine components, plain bearings, steel profiles, and other products. ZOLLERN supplies parts for applications in aerospace, shipbuilding, energy, vehicles, and more. It has developed from a simple ironworks 300 years ago into an ultra-modern company with over 3000 employees worldwide. ZOLLERN is known for quality, reliability, and engineering expertise.
The document discusses connection technology from ifm including M8 and M12 connectors. It describes features such as vibration protection from a saw-tooth contour design that prevents loosening from shocks and vibration. It also notes innovative sealing concepts that provide high protection ratings of IP67, IP68 and IP69K. A variety of product options are presented for different applications such as industrial environments, oils/coolants, hygienic areas, and hazardous locations.
Techno Industry is a manufacturer of pipe suspension equipment that is ISO 9001:2008 and ISO 14001:2004 certified. It produces a wide range of pipe supports and related products. The company has experienced designers and engineers who can assist with custom pipe support system designs. All materials and products are subject to strict quality control procedures.
For over 30 years, Bloxer Ronchi has produced fire-rated doors, windows and frames. They have two production facilities totaling 6,500 square meters. They produce steel and aluminum firewall frames rated EI 30 to EI 120. Their products are tested in authorized laboratories and certified to European standards. They offer various models and finishes for doors, windows, and fixed panels suitable for commercial and industrial buildings.
The document provides information about Alucobond composite panels produced by Alcan Composites. Key details include:
- Alucobond panels have a non-combustible mineral-filled core and aluminum sheets, making them the only non-combustible composite panel used worldwide in architecture.
- The panels have various international fire safety approvals and pass stringent classification tests.
- Alcan Composites has a global network of sales offices, production sites, and partnerships to distribute a wide variety of Alucobond panel sizes.
Catalog Q-Light, Catalog,
Catalog Thiết Bị Điện Q-Light, Catalog Thiết Bị Điện,
Catalog Biến Tần Q-Light, Catalog Điện Công Nghiệp,
http://dienhathe.com,
Chi tiết các sản phẩm khác của Q-Light tại https://dienhathe.com
Xem thêm các Catalog khác của Q-Light tại https://dienhathe.info
Để nhận báo giá sản phẩm Q-Light vui lòng gọi: 0907.764.966
Soudronic is a leading global supplier of metal packaging production systems and laser welding systems for automotive parts. It develops and installs welding solutions for metal packaging and automotive industries. Key products include canbody production lines, which typically include a slitter, transfer system, welder, seam protection system, and bodyformer. Soudronic aims to provide maximum efficiency and flexibility to customers through customized, high-quality solutions.
Similar to Rosa 2014 2015 eng SPAIN & GIBRALTAR DISTRIBUTOR: Hugo del Riego.- ugotolight@gmail.com SECURITY SAVING POLES & OUTDOOR LED LIGHTING (20)
Embedded machine learning-based road conditions and driving behavior monitoringIJECEIAES
Car accident rates have increased in recent years, resulting in losses in human lives, properties, and other financial costs. An embedded machine learning-based system is developed to address this critical issue. The system can monitor road conditions, detect driving patterns, and identify aggressive driving behaviors. The system is based on neural networks trained on a comprehensive dataset of driving events, driving styles, and road conditions. The system effectively detects potential risks and helps mitigate the frequency and impact of accidents. The primary goal is to ensure the safety of drivers and vehicles. Collecting data involved gathering information on three key road events: normal street and normal drive, speed bumps, circular yellow speed bumps, and three aggressive driving actions: sudden start, sudden stop, and sudden entry. The gathered data is processed and analyzed using a machine learning system designed for limited power and memory devices. The developed system resulted in 91.9% accuracy, 93.6% precision, and 92% recall. The achieved inference time on an Arduino Nano 33 BLE Sense with a 32-bit CPU running at 64 MHz is 34 ms and requires 2.6 kB peak RAM and 139.9 kB program flash memory, making it suitable for resource-constrained embedded systems.
KuberTENes Birthday Bash Guadalajara - K8sGPT first impressionsVictor Morales
K8sGPT is a tool that analyzes and diagnoses Kubernetes clusters. This presentation was used to share the requirements and dependencies to deploy K8sGPT in a local environment.
Advanced control scheme of doubly fed induction generator for wind turbine us...IJECEIAES
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.
International Conference on NLP, Artificial Intelligence, Machine Learning an...gerogepatton
International Conference on NLP, Artificial Intelligence, Machine Learning and Applications (NLAIM 2024) offers a premier global platform for exchanging insights and findings in the theory, methodology, and applications of NLP, Artificial Intelligence, Machine Learning, and their applications. The conference seeks substantial contributions across all key domains of NLP, Artificial Intelligence, Machine Learning, and their practical applications, aiming to foster both theoretical advancements and real-world implementations. With a focus on facilitating collaboration between researchers and practitioners from academia and industry, the conference serves as a nexus for sharing the latest developments in the field.
TIME DIVISION MULTIPLEXING TECHNIQUE FOR COMMUNICATION SYSTEMHODECEDSIET
Time Division Multiplexing (TDM) is a method of transmitting multiple signals over a single communication channel by dividing the signal into many segments, each having a very short duration of time. These time slots are then allocated to different data streams, allowing multiple signals to share the same transmission medium efficiently. TDM is widely used in telecommunications and data communication systems.
### How TDM Works
1. **Time Slots Allocation**: The core principle of TDM is to assign distinct time slots to each signal. During each time slot, the respective signal is transmitted, and then the process repeats cyclically. For example, if there are four signals to be transmitted, the TDM cycle will divide time into four slots, each assigned to one signal.
2. **Synchronization**: Synchronization is crucial in TDM systems to ensure that the signals are correctly aligned with their respective time slots. Both the transmitter and receiver must be synchronized to avoid any overlap or loss of data. This synchronization is typically maintained by a clock signal that ensures time slots are accurately aligned.
3. **Frame Structure**: TDM data is organized into frames, where each frame consists of a set of time slots. Each frame is repeated at regular intervals, ensuring continuous transmission of data streams. The frame structure helps in managing the data streams and maintaining the synchronization between the transmitter and receiver.
4. **Multiplexer and Demultiplexer**: At the transmitting end, a multiplexer combines multiple input signals into a single composite signal by assigning each signal to a specific time slot. At the receiving end, a demultiplexer separates the composite signal back into individual signals based on their respective time slots.
### Types of TDM
1. **Synchronous TDM**: In synchronous TDM, time slots are pre-assigned to each signal, regardless of whether the signal has data to transmit or not. This can lead to inefficiencies if some time slots remain empty due to the absence of data.
2. **Asynchronous TDM (or Statistical TDM)**: Asynchronous TDM addresses the inefficiencies of synchronous TDM by allocating time slots dynamically based on the presence of data. Time slots are assigned only when there is data to transmit, which optimizes the use of the communication channel.
### Applications of TDM
- **Telecommunications**: TDM is extensively used in telecommunication systems, such as in T1 and E1 lines, where multiple telephone calls are transmitted over a single line by assigning each call to a specific time slot.
- **Digital Audio and Video Broadcasting**: TDM is used in broadcasting systems to transmit multiple audio or video streams over a single channel, ensuring efficient use of bandwidth.
- **Computer Networks**: TDM is used in network protocols and systems to manage the transmission of data from multiple sources over a single network medium.
### Advantages of TDM
- **Efficient Use of Bandwidth**: TDM all
Optimizing Gradle Builds - Gradle DPE Tour Berlin 2024Sinan KOZAK
Sinan from the Delivery Hero mobile infrastructure engineering team shares a deep dive into performance acceleration with Gradle build cache optimizations. Sinan shares their journey into solving complex build-cache problems that affect Gradle builds. By understanding the challenges and solutions found in our journey, we aim to demonstrate the possibilities for faster builds. The case study reveals how overlapping outputs and cache misconfigurations led to significant increases in build times, especially as the project scaled up with numerous modules using Paparazzi tests. The journey from diagnosing to defeating cache issues offers invaluable lessons on maintaining cache integrity without sacrificing functionality.
2. 200
Cities, roads, facilities... all the elements of the space in which humans live need light. To feel safe,
to be able to function, but also enjoy the beauty and aesthetics of the world around us. Our expe-
riencehasallowed ustocompleteanofferdedicatedjusttothesespaces...
COMPANY
3. 2
ROSA Group founded by Stanislaw Rosa is present in the market of
outdoor lighting since 1992. We employ nearly 250 people in three
plants located inTychy and two sister companies abroad.
Zakład Produkcji Sprzętu Oświetleniowego ROSAZakład Handlowo-Usługowy ROSA
Within the Rosa Group work:
• ROSA Stanisław ROSA production of aluminium columns, lighting luminaires
andconnectionboxes.
• ROSA Sp. z o.o. – production of plastic coated poles, concrete foundations and the
reinforcement baskets.
• ROSA Sp. z o.o. – The biggest and most modern anodising plant in Central and
Eastern Europe applies interference colouring technology for profiles with a
length of up to 10 m.
• ROSAVostok Sp. z o.o – a service of the Russian market (except Kaliningrad district),
as well as Kazakhstan and Belarus.
• ROSA SAH Sp. z o.o. – operation of markets: Slovakia, Austria and Hungary.
4. 3
Our laboratories allow us to meet the high demands of our products.
Chemical laboratory is equipped with, among others, a device for
measuring the quality of the anode coatings, colours, and aluminium
alloys. RD laboratory can conduct research and analysis of the mate-
rials used in a variety of harsh environments. They also measure me-
chanical strength of materials. Our in-house Goniophotometer is used
to determine photometric and electrical sizes. With specialized devic-
es, we control the full process, from raw materials through to finished
products. This allows to create innovative solutions, including bespoke
products «made» according to customer requirements.
Today ROSA offers:
• more than 20 years of experience in the lighting industry,
• comprehensive commercial and engineering services,
• complete sets of lighting,
• realization of bespoke, unusual, unique product solutions for lighting columns, masts and lighting luminaires,
• a wide range of energy-efficient LED lighting,
• aluminium products anodised in 20 colours,
• unique, original technological solutions with a focus on ecology.
In addition to the product, we offer added value, comfort and safety, environmental and health, quality and
aesthetics. And all to our products illuminate and enhance the environment.
The total area of ROSA production plants is 24 000 m². We own
patents in technology and methods of product manufacturing.
Technological lines in factories and auxiliary equipment is based on
ecological solutions. Daily operations run on the basis of the Quali-
ty Management System ISO 9001:2001. We have all the certificates in
force in the EU, including Qualanod, which is awarded to the highest
quality anode coatings confirming compliance with European stand-
ards and passive safety certification of aluminium columns in the class
100 NE 2.
Polish technical thought is always appreciated in the ROSA Group. Our
engineering staff and research teams develop innovative methods
of production each year. Technical group includes the Italian design
company EMO. Our success is reflected in the Red Dot Award granted
by a prominent group of jurors for DROP I LED designed by the said
office. Luminaire MIZAR developed by Professor Paweł Balcerzak was
considered one of the most interesting projects established after 2000
and included in the publication «Polish design Uncut».
ROSA brand products are aesthetically pleasing, easy to install and
provide long-term operation. Produced in the processes of protect-
ing the environment, they are intended for use without harming the
environment.
Zakład Usługowy ROSA
COMPANY
5. 4
PRODUCTION OF ALUMINIUM CONES
WIRING CHAMBER
Each aluminium lighting column has a wiring chamber where the connection boxes are mount-
ed. The wiring chamber door is cut by laser or on a specially designed automatic saw. The door is
fastened with screws. The closure of the wiring chamber is equipped with grip clips (locks) welded
to the door and to the wiring chamber. The ROSA door locking system adds to the integral strength
of the column but subsequent wind calculations are not dependent on it being in place.
MATERIAL
Conical columns are rolled from EN AW-6060 aluminium alloy tube. Aluminium column base plates
are pressed from EN AW 5754 aluminium alloy sheet.The use of aluminium alloy ensures the correct
mechanical strength and chemical welding process, polishing and creation of anodised oxide on
items produced.
TECHNOLOGY OF CONE PRODUCTION
Extruded aluminium alloy tube is mechanically rolled on specially designed digitally controlled
machines. By using a rotational squeezing method, the cylindrical tube is being transformed into
conical tube with a greater durability parameters.
Conical columns are then brushed. This production technology and conical forming machines are
protected by patent registration, patent no PAT-194795.
BASE PLATE WELDING
The aluminium base plate and conical column section are welded by automatic robot. This ensures
high quality and aesthetic repetition within required parameters.
Welded connection of base plate with the column Wiring chamber in the aluminium columns
EARTHING SYSTEM
A slot is provided in the lower locking bar for a supplied M8 earthing bolt to which the earthing ca-
ble is attached. This location allows easy access to earthing bolt, thus allows for quick maintenance
and assembly.
Alternative, for the earthing used in the wir-
ing chamber as a standard is the additional
earthing which is made on the base of the
column. It can therefore be an optional, stain-
less steel screw M8 can be mounted on earth
connection box in the wiring chamber, or can
be screwed in the base plate. This solution can
be used especially in the case of application
of the earthing by banding steel.
OTWÓR ZAMKNIĘTY
PLASTIKOWĄ ZAŚLEPKĄ
ŚRUBA M8X25 A4
2X PODKŁADKA POD M8 A4 DIN125
NAKRĘTKA M8 A4 DIN934
ŚRUBA M8X25 A4
(WYKRĘCIĆ Z UZIEMIENIA OPCJA 1)
BEDNARKA
WNĘKA
DOLNY ZAMEK WNĘKI
SCREW M8X25 A4
(UNSCREW FROM THE EARTHING OPTION 1)
BANDING STEEL
LOCATION OF THE WIRING
CHAMBER IN RELATION
TO THE EARTHING
6. 5
WIRING CHAMBER DOOR SCREWS
Doors are secured with two stainless steel M8 screws of a special security allen socket shape which
prevents opening of the wiring chamber by unauthorised persons. Retaining o-ring type wash-
ers are fitted to each screw protecting it from falling out when loosening. The column can be
equipped with triangular screws/keys which are available on request.
COLUMN REINFORCEMENT
Columns marked with index “wzm” are reinforced. Reinforcement of the column within the base
and wiring chamber by an additional tube or a thicker wall allows the use of a number of luminaires
or extension arms, or their installations in areas exposed to high wind speeds.
RESISTANCE CALCULATIONS
Column resistance calculations are made in resistance program in accordance with standards EN 40
and EN 1991-1-4. Column resistance is calculated for columns with detached wiring chamber door.
Permissible column loads.
Designing of aluminium lighting columns is based on the group of standards EN 40.
1. EN 40-1 – Lighting columns – Terms and definitions.
2. EN 40-2 – Lighting columns – General requirements and dimensions.
3. EN 40-3-1 – Lighting columns – Designing and verification – Specification of characteristic
loading and recalled EN 1991-1-4. Designing bases and influencing on construc-
tion. 2-4 Wind loads.
4. EN 40-3-2 – Lighting columns – Designing and verification – Verification by testing.
5. EN 40-3-3 – Lighting columns – Designing and verification – Verification by calculations.
6. EN 40-6 – Aluminium lighting columns – Requirements.
The above listed standards also specify methods of determining the permissible load in column
construction. When determining permissible column loads, the following characteristic specific
parameters were taken into consideration: average wind speed, location category, analytical load,
horizontal deviation, shape factor.
CONNECTION OF TWO-PIECE ALUMINIUM COLUMNS
Permanent connection of two-piece columns is assured by using specially designed stainless steel
coronet connection clamp.
Connecting element is secured by using:
• 3 screws M10 – for two-piece SAL columns,
• 4 screws M10 – for two-piece MAL masts.
Connecting clamp for two-piece
column type MAL
Connecting clamp for two-piece
column type SAL
Allen key
Screw for closing wiring chamber door
M8x16 A2 (security allen screw with bolt)
16
M8
6
Kluczyk
imbusowy
Œruba do zamkniêcia
wnêki (M8x16 A2
szeœciok¹ tna
zbolcem)
16
M8
6
Kluczyk
imbusowy
Œruba do zamkniêcia
wnêki (M8x16 A2
szeœciok¹ tna
zbolcem)
COMPANY
7. 6
Aware of the safety requirements expected from the producers of lighting columns in minimizing
the danger resulting from road accidents we have carried out passive safety tests on its products
according to standard EN 12767“Passive safety of support structures for road equipment. Require-
ments and test methods.”
Due to the test results, we have received the passive safety certificate for rooted aluminium
columns up to 12 m and diameter up to Ø225 mm and for flanged aluminium columns up to 12 m
and diameter up to Ø180 mm:
100 NE 2
100 – test impact speed
NE – non-energy absorption construction
2 – vehicle passenger safety degree
Aluminium lighting columns with the passive safety class 100NE2 may be used in a road infrastruc-
ture, where the non-energy absorption factor is required for road constructions, e.g. motor ways,
express ways, country roads. In this case, the vehicle, having crashed against the column, will
continue driving at a reduced speed, protecting the passengers of vehicle against the effects
of collision.
Categories and parameters
Determination of standards:
1. Construction categories in respect of the energy absorption degree:
HE – high level of energy absorption
LE – low level of energy absorption
NE – no energy absorption
Class„0”– passive safety requirements are not met
2. The degrees of passenger safety:
1, 2, 3 – supporting structures to provide increased security
4 – harmless supporting constructions.
Levels of energy absorption according to EN 12767
PASSIVE SAFETY
HIGH LEVEL OF ENERGY ABSORPTION
LOW LEVEL OF ENERGY ABSORPTION
NO ENERGY ABSORPTION
8. 7
ANODISING PROCCESS
ANODISING PROCCESS
Raw and unsecured aluminium is susceptible to dirt, and it corrodes in the polluted and aggressive
environment. We offer to our clients the highest quality products, that’s why all of our aluminium
columns are anodised.
Anodising is a surface treatment of aluminium and its alloys consisting of a controlled electrolytic
formation of a protective layer of aluminium oxide. Depending on product destination and terms
of use, anodised coatings are made in several thickness classes. The thickness of the anodic coating
lighting columns is 20 µm. This ensures safe use in moderate to harsh conditions. For exceptionally
harsh conditions a coat of 25 microns is recommended. There is the possibility to anodise products
up to 10 m length.
The porous structure of the oxide coating allows to permanent colouring of metal with an electro-
chemical or interference method. In these technologies, metallic fraction is permanently associated
with the structure of an anode layer and the corresponding geometry and orientation of the pores
determines the perceived colour.
Anodising is used for the following purposes:
• the anti-corrosion and mechanical protection of the metal surface, with particular emphasis on
atmospheric corrosion, especially against aggressive environmental factors such as sea water,
acid rain, etc..,
• decorative - anodised surfaces achieve a smooth, satin finish, and additional colouring provides
exceptional aesthetic surface finish.
ROSA ANODISING PLANT
Anodising plant of aluminium products is part of ROSA GROUP. It has been operating since
2009 and it is today the largest of this kind facility in Central – Eastern Europe. ROSA anodising
plant specializes in services such as anodising with electrochemical or interference colouring
of aluminium materials (including sheet metal, pipes, profiles or other structural elements).
Modern interference technology of colouring provides richer from the traditional colour
palette, resistant to external factors, including UV radiation. ROSA anodising plant anodises
the elements up to 10 m, simple or complex shapes, in 10 unique anodising colours, each with
the possibility of brightening.
VALUE OF ANODISED ALUMINIUM
• anodised coatings are integrally connected with the ground, so there is no possibility of
peeling, spalling or delamination,
• long service life, with the possibility of receiving the guarantee up to 20 years,
• high aesthetics of the column for a long time of use,
• high resistance to UV radiation,
• high resistance to abrasion due to the greater hardness of the coating,
• corrosion free,
• the availability of a wide range of colours,
• decorative surface.
QUALITY GUARANTEE!
We conducted in our RD laboratory test of resistance of anodic oxide coatings to UV rays. The test
was performed in accordance with the recommendation of EN ISO 6581 «Anodising of aluminium
and its alloys – Determination of relative resistance to ultraviolet light and heat of coloured anodic
oxide coatings.»
During 11500 h of the exposure of the samples in the device Q-Sun Xe-3 during 11500 h, there
was no change in colour of the oxide coating. Such exposure period as equivalent to 16 years
of operation in Polish climatic conditions.
At the same time, the samples of anodised aluminium lighting columns are systematically tested
in a salt spray chamber to determine the corrosion resistance. So far, during 16000 h of exposure
time, there was no signs of corrosion (exposure time recommended by EN ISO 9227 is 1000 h).
The company received technical approval of the European Association of Surface Treatment
Aluminium QUALANOD with the right to use the Quality Label
QUALANOD of Anode Coatings, which confirms the highest
quality of services provided by ROSA anodising plant.
COMPANY
9. 8
ANODISING PROCESS
The process of anodising is carried out on an automated technological line equipped with 27 tanks.
This process can be divided into three stages. Between the different essential processes the opera-
tions of washing the product are carried out.
Anodising process stages:
1. Surface preparation:
– surface pre-treatment phase – removal of grease and other contaminants of various origin from
the surface of the aluminium,
– alkaline bath phase – removal of thin oxide layer from the surface of the product and creating
an uniform matt and decorative appearance, and removal possible defects,
– pickling (lightening) phase – removal residual alloy impurities and thin oxide layers and sedi-
ments that may remain after the etching process, their removal is necessary to create the opti-
mal adherence of the oxide coating to the matrix.
2. Anodising and colouring:
• anodising is controlled formation of aluminium oxide layer on the aluminium surface during
electrochemical process. Anodised coating is formed by electrolysis, in sulfuric acid solution with
the participation of a certain current density. The anodic film grows with 2/3 of its thickness
below the original metal surface and 1/3 above it. It is considerably thicker than the natural
oxide layer so that it effectively protects the aluminium surface from further oxidation, that is
corrosion. Its porous structure allows for durable colouring of the product by chemical, electro-
chemical and interference method.
• electrochemical colouring is treating an anodised product in the electrolyte containing tin ions.
Reduced metal in cycle cathode is deposited on the bottom of the pores of the oxide coating
and can durable colouring the aluminium surface. This method produces a range of colours
from pale to dark brown and black.
• Interference colouring operation is preceded by shapes modification of the pores of the anodic
layer. Tin is then deposited in such modified pores and provides durable colouring of aluminium
surface, expanding the palette of colours obtainable in electrochemical colouring of new col-
ours.This method uses the interference phenomena of the reflected light waves which increases
or decreases the amplitude of the resultant wavelengths. Modifying the amplitude by controlled
changing the shape of the pores of the anode layer allows to create new colours.
3. Sealing
Sealing aim to seal the closure of the porous oxide layer, which ensures proper corrosion resist-
ance. This is the last process of anodising, run in a dematerialized hot water containing acceler-
ating additives, which comes to fill the pores in the oxide coating with boehmite and aluminium
hydroxide. After sealing the anodised aluminium surface is hard, smooth, resistant to dirt and
corrosion.
BRIGHTENING
Brightening is accomplished by chemical etching of glossy surface structure prior to anodising of
the aluminium. The process is based on smoothing the chemical structure of the surface, which
results in a reduction in fogging and lightens the metal surface, which in turn can effect the final
gloss.
10. 9
THE ANODISING COLOUR PALETTE
Real anodising colour can differ from presented colour sample.
“W”means brightening.
Natural C-O Natural C-OW Champagne C-32 Champagne C-32W
Black C-35 BlackC-35W
GreyCI-63 Grey CI-63W
Brown C-34 Brown C-34W
Anthracite CI-78 Anthracite CI-78W
Graphite CI-65 GraphiteCI-65W
InoxC-45 Inox C-45W
Olive C-33 Olive C-33W
GreenCI-75 GreenCI-75W
COMPANY
11. aluminium aluminium
aluminium
aluminium aluminiumaluminium
warstwa
tlenkowa
warstwa
tlenkowa
warstwa
tlenkowa
zmodyfikowane
pory anodowanej
warstwy tlenkowej
warstwa
tlenkowa
warstwa
tlenkowa
warstwa
tlenkowa
uszczelniacz
(bemit)
FALA ŚWIATŁA
WCHODZĄCEGO
FALA ŚWIATŁA
WCHODZĄCEGO
FALA ŚWIATŁA
ROZPROSZONEGO
FALA ŚWIATŁA
ODBITEGO
EFEKT BARWNY EFEKT BARWNY
uszczelniacz
(bemit)
uszczelniacz
(bemit)
cyna cyna
cyna cyna
BARWIENIE
MODYFIKACJA PORÓW
BARWIENIE
USZCZELNIANIEUSZCZELNIANIE
USZCZELNIANIE
BARWIENIE ELEKTROCHEMICZNE BARWIENIE INTERFERENCYJNEKOLOR NATURALNY
PROCES ANODOWANIA WYROBÓW ALUMINIOWYCH
PRZED PROCESEM ANODOWANIA
zanieczyszczenia organiczne
i nieorganiczne (w tym tłuszcze)
samoistna warstwa tlenkowa
aluminium
aluminium
aluminium
aluminium
pory anodowanej
warstwy tlenkowej
pierwotny poziom
aluminium
warstwa tlenkowa
osad potrawienny
ODTŁUSZCZANIE I TRAWIENIE
DEKAPOWANIE
ANODOWANIE
10
ANODISING PROCESS OF ALUMINIUM PRODUCTS
BEFORE ANODISING PROCESS
DEGREASING AND EACHING
PICKLING
ANODISED COLOUR ELECTROCHEMICAL COLOURING INTERFERENCE COLOURING
MICROPORES MODIFICATION
COLOURINGCOLOURING
COLOURED EFFECT COLOURED EFFECT
WAVE OF INCOMING
LIGHT
WAVE OF INCOMING
LIGHT
WAVE OF REFLECTED
LIGHT
WAVE OF REFLECTED
LIGHT
SEALING SEALING
SEALINGANODISING
organic and inorganic
contamination (including fat)
intrinsic oxide layer
aluminium
aluminium
aluminium
aluminium aluminium
oxide layer
aluminium
aluminium aluminium
aluminium
tin
aluminium
oxide layer
micropores of anodised
oxide layer leak stopper
(boehmite)
sealant
(boehmite)
tin tin
sealant
(boehmite)
modified micropores of
anodised oxide layer
oxide layer
tin
oxide layer oxide layer
oxide layer
primary aluminium
layer
oxide layer
after eaching deposit
12. 11
ELASTOMER
Anticorrosive base protection of the column and its rooted section. Due to negative effects of salts
and ammonia compounds and to prevent mechanical damage in compliance with EN-40 Europe-
an requirements concerning aluminium columns, it is recommended to protect the lower part of
the column.
The thickness protection layer is from 0,7 mm to 1 mm and its hardness is 90°sh. Elastomer surface
is painted by UV resistant paint into colour matching the colour of anodised column.
For this purpose, ROSA proposes to cover the column base together with fixing holes and also
the rolled part of the column up to 350 mm with polyurethane elastomer.
Rooted columns type SAL dz are protected with polyurethane elastomer as a standard. Material and
production technology are environmentally friendly.
ELASTOMER COLUMN PROTECTION
Aluminium surface
Protectionby
polyurethane
elastomer
Protectionbypolyurethane
elastomer
Primer
The paint in the colour
of the column
Polyurethane elastomer
Protection of the columns with base plate
by polyurethane elastomer
Protection of the rooted columns
by polyurethane elastomer
COMPANY
13. 12
PRODUCTION OF PLASTIC COATED POLES
POLE CONSTRUCTION
Plastic coated poles consist of three interconnected materials:
• supporting structure made of steel tubes of hybrid construction welded to the steel base which
is reinforced with angle braces,
• external components made of special composition of plastics by thermoforming and injection
molding method,
• self-extinguishing, rigid polyurethane foam that fills the space between the structure and the
plastic coating of the pole.
The pole steel construction was specially designed to absorb the load created mostly by wind
pressure.
Plastic coating is made in two versions:
• standard thermal resistance – poles used in countries where air temperature varies between -30°C
to +40°C,
• high thermal resistance – poles used in countries where air temperature is less than -30°C and
exceeds +40°C. It concerns poles in black colours. This type of pole is additionally marked with
letter“F”.
NICHE CHAMBER
Poles with niche chamber are additionally marked with letter “W”. The niche chamber is located
in the first, lower section of the lighting pole. It is designed to connection box mounting on the
aluminium rail located on the back of the steel structure of the pole. The rail fixing clamp can be
used as a protective one.
The niche chamber is protected by decorative plastic cover in identical colour and texture to the
pole.
Plastic coated poles are characterized by:
• corrosion resistance,
• light weight facilitates transport and mounting,
• aesthetic appearance,
• adverse weather conditions resistance,
• resistant to salt, ammonia and other caustic substance,
• UV resistant,
• high mechanical qualities,
• suitable for every climatic zone,
• low cost of maintenance.
Wiring chamber in SP poles
Steel construction
Polyurethane foam
External plastic coating
Wiring chamber in S and SM poles
14. 13
TYPES OF PLASTIC COATED POLES
Plastic coated poles are produced in three versions:
S – traditional,
SP – straight,
SM – composite.
TYPES OF SPIGOT ENDING
Three types of spigot ending are used depending on type of plastic coated pole:
– type„A” – designed for mounting arm systems in poles type S and SP and extension arms
WT in poles type SP,
– type„B”– designed for using luminaires with spigot ending Ø60 mm (OP, OPA-1, OS-1, OS-1
LED, OS-11 LED),
– type„E”– designed for mounting extension arms WTM.
Spigot ending is integral and non-modified part of the pole.
Section endings of plastic coated poles
Column view Column viewCross-section Cross-section Steel constructionSteel construction
An example of the construction of the pole S-40W An example of the construction of the pole SM-1W
COMPANY
15. 14
LIGHTING LUMINAIRES
LUMINAIRES FOR DISCHARGE LAMPS
We offer modern, aesthetic and functional luminaires which use high-pressure light source. Among
them are park and street luminaires and floodlights which are used to illuminate large areas. This
enables the comprehensive use of lighting luminaires – they can be mounted either directly on the
column and on the extension arm or wall bracket. Additionally, a handle is integrated with the lumi-
naire, what allows to adjust the inclination angle. A wide range of lamp diffusers for park luminaires
provides a choice in shape, colour, material and size. For luminaires with transparent lamp diffusers,
stainless steel louvre reflector may also be installed. It reduces glare and directs the luminous flux
towards the ground.
Luminaires are made from high quality materials. Anodised aluminium is used for the structure, and
a new generation of plastic which is resistant to aging and the conditions of industrial atmosphere
that guarantees long-term trouble-free operation. It is possible to use different light sources and
power, so they can be adapted to existing conditions and needs.
According to the recommendations of the European Directive No 2005/32/EC concerning most of
all, the sky pollution by street lighting, construction of ROSA luminaires limit upward light emission.
Whereas, according to enviromental policy of the company, the luminaires are made from environ-
mentally friendly materials and fully utilized.
VARIETY OF SOLUTIONS
ROSA offers a wide range of products based on LED technology and solutions using high-pressure
light sources. Types of ROSA luminaires:
• park luminaires designed to illuminate urban areas for example, parks, routes, parkings,
• street luminaires designed to illuminate highways, roads, parkings and industrial areas,
• floodlights for architectural lighting, sports facilities and large areas.
Kraków / Poland
16. 15
LED LUMINAIRES
ROSA LED luminaires combine anodised aluminium technology with innovative LED sources what
makes them not only economic, ecological and durable, but also highly aesthetic. In the group of
ROSA LED luminaires are park, street luminaires and floodlights.
The advantages of using LED luminaires:
• reduction of energy consumption,
• possibility of using power reduction,
• quantity reduction of lighting sets,
• maintenance costs savings.
LIGHT SOURCES
ROSA products equipped with LED use light source CREE:
XM-L2 – one of the most efficient single-structure diodes on the market which assures unprece-
dented savings in energy consumption:
• high efficiency – allows to achieve up to 120 lm/W of entire luminaire efficiency,
• low thermal resistance 2,5˚C/W – which translates into low diode working temperatures with
consequently longer luminaire lifespan.
XT-E – a diode characterized by good ratio of price to performance:
• uniformity of light colour in the whole angle of the lighting beam (columns KARIN LED, CORONA
LED)
LMH2 – replaceable LED module used in traditional luminaires retrofitted with LED source (ATLAN-
TIS LED, ELBA LED, OS-11 LED)
• pleasant warm colour temperature (3500 K) and very high CRI90
COLOUR TEMPERATURE OF LIGHT, COLOUR RENDERING INDEX
Light sources in ROSA luminaires and lighting sets are available in the variants of the light colour
temperature: 3500 K or 5000 K.
Warm white colour (3500 K) is preferred in lighting of urban spaces, parks. In contrast, neutral white
colour (5000 K) works in street lighting due to the higher efficiency of light.
These variants are marked in the product code by number„3” for the temperature 3500 K and by
number„6”for the 5000 K. The choice of one of these options makes no difference to the luminaire
cost but depends on customer preference.
There is a possibility of ordering the luminaires with light sources with a colour temperature other
than the standard, from range 2600-5000 K on request.
OPTICS
ROSA LED luminaires use only optics made of PMMA (polymethyl methacrylate) with increased
resistance to temperature. It is used in collective lens and lamp diffusers/light diffusing plates (ELBA
LED, ATLANTIS LED, CORONA LED, KARIN LED, OS-11 LED).
Standard LED module has a temperature sensor and protection of circuit interruption due to dam-
age of a single diode.
Standard module LED – used in most of the park luminaires, also in lighting sets DROP LED and
FLEXI LED
LED CREE XM-L2
LED CREE XT-E
* ATLANTIS LED, ELBA LED, OS-11
Light colour Colour temperature of light (CCT) Colourrenderingindex(CRI)
Warm white 3500 K
80
90*
Neutral white 5000 K 75
COMPANY
17. 16
REPLACEABLE LED MODULE
Replaceable LED module contains 12 diodes XM-L2 or XT-E and is used in 5 unique optics.
The housing and the connectors are waterproof – IP67. The module has a temperature sensor and
protection against circuit interruption. At the bottom of the module is mounted a graphite thermal
pad which provides heat transfer to the heat sink of the luminaire or column.
The module can be replaced using simple tools.
LUMINAIRE CONSTRUCTION
Luminaires body, with the exception of luminaires OS-1 LED, ELBA LED, ATLANTIS LED, MAGNOLIA
LED and LED lighting sets, are made entirely from profiles and aluminium sheets. Aluminium alloy
is known for its excellent thermal properties and high thermal conductivity ( 200W/mK).
Maintaining low critical temperature of diodes ensure their durability over the years. Luminaire
housing is anodised, which further increases the dissipation of heat by radiation.
Using of anodised aluminium, beyond aesthetic values, provides further proper heat dissipation,
allowing the luminaire long light efficiency at the highest level.
The standard LED luminaires are offered in configurations of colours inox/graphite or inox/black.
Mińsk Mazowiecki / Poland
18. 17
300
400
500
600
cd/klm
C0 - C180 C90 - C270
0° 15° 30°
45°
60°
75°
90°
105°105°
90°
75°
60°
45°
30° 15° 0°
– ME lighting classes
– high rate of surrounding lighting SR0.6
ME
– ME2 lighting classes
– particularly effective in double row configurations (oppo-
sing arrangement or on median)
T2
– ME3 lighting classes
– installation height up to 10 m
– high longitudinal uniformity of the luminance UI
T3
– ME road classes, pedestrian ways
– installation height up to 8 m
– very high longitudinal uniformity of the luminance UI
DW
– illumination of warehouses
– illumination of buildings
HB
AVAILABLE OPTICS FOR REPLACEABLE LED MODULE
COMPANY
19. 18
Programmable time profiles allow to boost savings resulting from the use of lighting based on
LED technology. Additional economic benefits result from possibility of reducing power luminaire
during the cycle, where the maximum luminous flux is not particularly required. For the customer’s
convenience, it is possible to set 5 power threshold in the range from 10 to 100% of rated power
at any interval cycle of luminaire. The user indicates the power level which is expected at specific
hours across a day, then the driver performs a given profile, regardless of the time on/off lighting.
The use of such a solution can reduce the power consumption of luminaires, which translates into
economic savings.
DRIVER – PHILIPS
The LED luminaires use highly efficient constant current programmable drivers: Philips Xitanium.
Drivers series Xitanium are designed to power outdoor lighting with LED light source. Philips Xitani-
um drivers offer considerable flexibility through a large number of programmable options that can
be set according to different requirements of customers. At the user’s disposal is available a number
of parameters such as: adjustable output current, interfaces Dali and 1-10V, built-in programmer
time profiles. In addition, the driver has an option to control the temperature of LED modules,
which reduces power if it detects a temperature higher than programmed, allowing to protect the
diodes from overheating, and hence faster wear.
The driver is housed in an enclosure with routed connectors, making its replacement without or
with simple tools.
Model
Output power
range
Output voltage
range
Current output
range
Voltage Insulation class
Ingress protec-
tion IP
Xitanium 75W
0.1-1.05A Prog+sXt
25-75W 36-75V
100-1050 mA 120-277V II IP66
Xitanium 150W
0.1-1.05A Prog+sXt
75-150W 70-148V
Parameters used in Philips Xitanium drivers
20. 19
EXTERNAL CONTROL SYSTEM
ROSA luminaires have interface DALI or 1-10V, which allows to control the illuminance of luminaire.
The best way of control is the connection of luminaires in a lighting control system. Such a system
provides steerage and control of LED luminaires.
ROSA recommends, the APANET Green System which allows dimming and the exclusion of individ-
ual luminaires or groups of luminaires and control of their parameters (active, reactive, cosφ, THD,
etc.).
This system operates in a global standard LonWorks, which uses the protocol LonTalk for communi-
cation (ISO/IEC14908) that allows to use devices from different manufacturers in a single installation.
Additionally, there is the possibility of installing sensors in the system, mostly twilight and traffic,
weather station through which it is possible to control the weather conditions in the place of lumi-
naires installation. In case of failure of the luminaire, system sends a SMS or an e-mail with informa-
tion about the damage of the luminaire.
Control over such luminaires takes place via devices with internet connection (desktop computers,
laptops, tablets). This allows luminaire control from almost every place on Earth.
The use of an external control system can significantly affect the reduction of energy costs (e.g.,
installing a motion sensor on the rarely frequented stretch of road) and maintenance (reporting
failure).
ECONOMY
The main advantage of the LED lighting is its energy – efficiency in comparison to traditional light
sources. At the same luminous flux, the LEDs consume less energy than traditional lamps – for ex-
ample, the new park luminaire MIRA LED 36W achieves higher light efficiency than used luminaire
OPA-1 S-70W. With ROSA products, power consumption per year can be reduced up to 73% while
reducing the cost of investment.
The durability of LEDs used in our housings characterized by a parameter L90 for 50 000 hours
which allows for about 12 years of operation with decrease of luminous flux up to 90% of the initial
value. Thereby significantly reducing the costs associated with maintenance of ROSA LED lumi-
naires and get additional savings.
Another argument is improving the quality of lighting and ecological perception compared to con-
ventional light sources.
ECOLOGY
Care for the environment and safety has created a huge demand for environmentally-friendly solu-
tions.
• LEDs do not emit UV or infrared radiation. ROSA LED products use less energy, causing reduc-
tion of carbon dioxide emissions in electricity production.
• Light sources used in luminaires meet the requirements for Standard EN 62471“Photo biological
safety of lamps and lamp systems”and do not cause damage to eyes in normal use.
• Luminaires are made from renewable materials, mainly aluminium, which can easily be recycled.
• ROSA LED products are compatible with the RoHS Directive, which restricts the use of hazard-
ous materials in electronics.
• In accordance with the policy of prevention “sky light pollution” light from the luminaires is
directed only downward.
ROSA LED PRODUCTS CARRY A 5 YEAR GUARANTEE WHICH CAN BE EXTENDED UP TO 10 YEARS.
COMPANY
21. 24
PARK LIGHTING
Park aluminium straight columns (height: 3-6 m) 22
Park aluminium decorative columns (height: 3-6 m) 25
Extension arms for park aluminium columns 30
Park aluminium columns with welded extension arms (height: 4-6 m) 32
Aluminium wall brackets 38
Plastic coated poles 40
Arms systems for plastic coated poles 50
Extension arms for plastic coated poles 52
Wall brackets for plastic coated poles 56
Park luminaires 58
Stainless steel louvre reflectors for park luminaires 74
LED park luminaires 76
LED lighting sets 100
Lighting columns 110
22. 25
PARK LIGHTING
Create the perfect lighting of park, square or district. Wide range
of ROSA products will allow you to choose ideal solution for the
given environment.We offer modern lighting luminaires based on
LED technology or using high-pressure light source. We also offer
a wide selection of decorative columns, extension arms and wall
brackets made of anodised aluminium or durable plastic. In addi-
tion to the standard product range we also make a special designs
according to customer requirements.
PARKLIGHTING
41. 40
2090
2055
1400
2765
2655
5285
4735
4030
3355
3320
Ø225
S-13
Ø225
S-23
Ø300
S-22
Ø300
S-21/S-21W
Ø300
S-30/S-30W
Ø300
S-31/S-31W
Ø300
S-32
Ø300
S-40/S-40W
Ø300
S-52W
Ø300 [mm]
S-54W
PARK LIGHTING / PLASTIC COATED POLES
TRADITIONAL POLES TYPE S
Types of spigot endings:
• ending type ”A” – for mounting arm systems
• ending type ”B” – for mounting luminaires with spigot ending Ø60: OP, OPA-1, OS-1, OS-1 LED, OS-11 LED
• colour: black
Name S-13 S-23 S-22 S-21/S-21W S-30/S-30W S-31/S-31W S-32 S-40/S-40W S-52W S-54W
Ending ”A” – 12310 12210 12110/12111 13010/13011 13110/13111 13210 14010/14011 15211 15411
Ending ”B” 13320 12320 12220 12120/12121 13020/13021 13120/13121 13220 –/14021 15221 15421
At ordering poles with increased thermal resistance the mark „F” must be added in the product code.
W – pole with niche chamber
42. 41
PARK LIGHTING / PLASTIC COATED POLES
TRADITIONAL POLES TYPE S
widok słupa konstrukcja stalowa
Przykład budowy słupa S-40W
przekrój
Example of the pole construction S-40W
pole view cross-section steel construction base
element 1
cover
element 2
element 3
element 4
Tomaszkowice / Poland
PARKLIGHTING
43. 42
PARK LIGHTING / PLASTIC COATED POLES
TRADITIONAL POLES TYPE S
Pole S-54W/A
arm system 2
downwards,
luminaires OP,
diffusers Sphere
transparent Ø450,
stainless steel louvre
reflectors
Pole S-52W/A
arm system 3
downwards,
luminaires OP,
diffusers Sphere
transparent Ø400,
stainless steel louvre
reflectors
Pole S-40W/A
arm system 3+1
downwards,
luminaires OP,
diffusers Sphere
transparent Ø400
stainless steel louvre
reflectors
Pole S-32/A
arm system 2
downwards,
luminaires OS-1,
frosted diffusers
Pole S-31W/A
arm system 3 upwards,
luminaires OS-1
diffusers transparent
stainless steel louvre
reflectors
Pole S-30/A
arm system 2+1
downwards
luminaires OP, diffusers
Sphere transparent Ø400
stainless steel louvre
reflectors
Pole S-23/B
luminaire OS-1
frosted diffusers
Pole S-22/B
luminaire OP
diffusers Klio
smoked with cap
Pole S-21W/B
luminaire OS-1
frosted diffusers
Pole S-13/B
luminaire OP
diffusers Klio
white
SupS-54W/A,
ukadramion2wdó,
oprawyOP,kloszeKule
przezroczysteO450,
rastryzestalinierdzewnej
SupS-52W/A,
ukadramion3wdó,
oprawyOP,kloszeKule
podpalaneO450,
rastryzestalinierdzewnej
SupS-40W/A,
ukadramion3+1wdó,
oprawyOP,
kloszeKulebiaeO400
SupS-32/A,
ukadramion2wdó,
oprawyOS-1,
kloszebiae
SupS-31W/A,
ukadramion3wgórê,
oprawyOS-1,klosze
przezroczyste,rastryzestali
nierdzewnej
SupS-30/A,
ukadramion2+1wdó,
oprawyOP,klosze
KuleprzezroczysteO400,
rastryzestalinierdzewnej
SupS-23/B,
oprawaOS-1,
kloszbiay
SupS-22/B,
oprawaOP,
kloszKliopodpalany
zdaszkiem
SupS-21W/B,
oprawaOS-1,
kloszbiay
SupS-13/B,
oprawaOP,
kloszKlio
podpalany
45. 44
PARK LIGHTING / PLASTIC COATED POLES
STRAIGHT POLES TYPE SP
At ordering poles with increased thermal resistance the mark „F” must be added in the product code.
W – pole with niche chamber
6000
4645
3735
3735
4000
2880
Ø225 Ø300 Ø300 Ø300320x320 400x400
SP-5WSP-4WSP-31WSP-3WSP-3SP-2
[mm]
Name SP-2 SP-3 SP-3W SP-31W SP-4W SP-5W
Ending ”A” 17210 17310 17311 173111 17411 –
Ending ”B” 17220 – 17321 173211 17421 –
Ending ”E” – – 17351 173511 17451 17551
Types of spigot endings:
• ending type ”A” – for mounting arm system type P, extension arms WT, WA-1,
WA-01, WA-4
• ending type ”B” – for mounting luminaires with spigot ending Ø60: OP,
OPA-1, OS-1, OS-1 LED, OS-11 LED
• ending type ”E” – for mounting extension arms WTM
• colour: black (there is also the possibility to make the column in white colour)
46. 45
STRAIGHT POLES TYPE SP
Widok słupa przekrój konstrukcja stalowa
Przykład budowy słupa SP-4W
base
element 1
cover
element 2
element 3
element 4
Example of the pole construction SP-4W
PARK LIGHTING / PLASTIC COATED POLES
Tychy / Poland
pole view cross-section steel
construction
PARKLIGHTING
47. 46
PARK LIGHTING / PLASTIC COATED POLES
STRAIGHT POLES TYPE SP
Pole SP-2/A
extension arm WT-2
luminaire OP
diffusers Sphere smoked Ø400
stainless steel louvre reflectors
Pole SP-3W/A
extension arm WT-5/2
luminaires OPA-1
diffusers Auris with black cap
Pole SP-4W/E
extension arm WTM-11/2
luminaires OP
diffusers Sphere transparent Ø400
stainless steel louvre reflectors
Pole SP-5W/E
extension arm WTM-20/2
luminaires OW
diffusers Cone white Ø400
Chorzów / Poland
49. 48
PARK LIGHTING / PLASTIC COATED POLES
COMPOSITE POLES TYPE SM
Types of spigot endings:
• ending type ”E” – for mounting extension arms WTM
• colour: black
Ø300
SM-1W SM-2W SM-3W
Ø300 Ø300
5855
5150
4440
[mm]
At ordering poles with increased thermal resistance the designation „F” must be added in the product code.
W – pole with niche chamber
Name SM-1W SM-2W SM-3W
Ending ”E” 15551 15651 15751
Drobin / Poland
50. 49
PARK LIGHTING / PLASTIC COATED POLES
COMPOSITE POLES TYPE SM
widok słupa przekrój konstrukcja stalowa
Przykład budowy słupa SM-1W/E
base
element 1
cover
element 2
element 3
element 4
Example of the pole construction SM-1W/E
pole view cross-section steel construction
Aleksandrów Łódzki / Poland
PARKLIGHTING
51. 50
PARK LIGHTING / PLASTIC COATED POLES / ARM SYSTEMS
ARM SYSTEMS
Ø60
298
Ø60
190
160
Ø60
380
160
arm system 2 – downwards
code: 332000
arm system 3+1 – upwards
code: 333100
arm system 2+1 – upwards
code: 332100
430
Ø60
490
298
Ø60
298
Ø60
arm system 1 – downwards
code: 331000
arm system 3 – upwards
code: 333000
arm system 2 – upwards and downwards
code: 332000
Ø60
60
Spigot ending of the armThe way of assembling arm system in a head
• application: for mounting on traditional plastic coated poles type S with spigot ending ”A”
• material: arm – polypropylene reinforced with steel tube, head and extension of the head – polyamide
• construction: arm connected to head with a connecting socket
• optional arm configuration: upwards or downwards
• luminaires: OP, OS-1, OS-1 LED, OS-11 LED – max. weight 7 kg
• colour: black
Gulbene / Latvia
52. 51
PARK LIGHTING / PLASTIC COATED POLES / ARM SYSTEMS
ARM SYSTEMS P
298
Ø60
490
Ø60
298
Ø60
298
• application: for mounting on traditional plastic coated poles type SP with spigot ending ”A”
• material: arm – polypropylene reinforced with steel tube, head – polyamide
• construction: arm connected to head with a connecting socket
• optional arm configuration: upwards or downwards
• luminaires: OP, OPA-1, OS-1, OS-1 LED, OS-11 LED – max. weight 7 kg
• colour: black
Ø60
65
Spigot ending of the armThe way of assembling an arm system in a head
arm system P 1 – upwards
code: 341000
arm system P 2 – upwards
code: 342000
arm system P 2 – upwards and downwards
code: 342000
Żywiec / Poland
PARKLIGHTING
53. 720
525
570 1140
860
910
1160
1160
665
665
740
640
Ø60
Ø60 Ø60
650
380
Ø61wewn.
Ø60
Ø61wewn.
500
Ø60
500
1300
380
1210
610
Ø60
Ø61wewn. Ø61wewn.
Ø61wewn.
1210
610
Ø61wewn.
52
EXTENSION ARMS WT
• application: for mounting on poles type S and SP with spigot ending“A”
• material: aluminium alloy anodised in black, there is also the possibility
of anodising in other colours
WT-2
code: 477020/C35
luminaire: OP 400
WT-5/2
code: 477052/C35
luminaire: OPA-1
WT-8/2
code: 477082/C35
luminaire: OP 400
WT-3
code: 477030/C35
luminaires: OP 400, OP 450
WT-5/1
code: 477051/C35
luminaire: OPA-1
WT-8/1
code: 477081/C35
luminaire: OP 400
PARK LIGHTING / PLASTIC COATED POLES / EXTENSION ARMS
Tychy / Poland
inside Ø61 inside Ø61
inside Ø61 inside Ø61
inside Ø61 inside Ø61
55. 54
EXTENSION ARMS WTM
• application: for mounting on poles type SM and SP with spigot ending“E”
• material: aluminium alloy anodised in black, there is also the possibility of
anodising in other colours
1150
275
630
Ø60
wewn. Ø52
1260
1150
275
Ø60
Ø52wewn.
275
135
560
950
Ø60
Ø52wewn.
275
135
Ø60
10O
560 545
1300
1600
Ø60
Ø52wewn.
Ø60
WTM-11/1
code: 476111/C35
luminaires: OP 400, OP 450
WTM-15/1P
code: 476151/C35
luminaires: OP 400, OP 450
WTM-11/2
code: 476112/C35
luminaires: OP 400, OP 450
WTM-15/2
code: 476152/C35
luminaires: OP 400, OP 450, street
PARK LIGHTING / PLASTIC COATED POLES / EXTENSION ARMS
Dubaj / United Arab Emirates
inside Ø52 inside Ø52
inside Ø52 inside Ø52
56. 55
900
1005
275
1810
Ø42
wewn. Ø52
1800
275
1005
1810
Ø42
wewn. Ø52
EXTENSION ARMS WTM
1550 1070
1365
365
275
2350
Ø42
Ø42
wewn. Ø52
WTM-16/2
code: 476162/C35
luminaires: OW, DROP
WTM-20/1
code: 476201/C35
luminaires: OW, DROP
WTM-20/2
code: 476202/C35
luminaires: OW, DROP
PARK LIGHTING / PLASTIC COATED POLES / EXTENSION ARMS
Moskwa / Russia
Moskwa / Russia
inside Ø52 inside Ø52
inside Ø52
PARKLIGHTING
57. 56
WALL BRACKET KR
PARK LIGHTING / PLASTIC WALL BRACKETS
475
298
950
Wall bracket KR, luminaire OS-1, frosted lamp diffuser
Wall bracket KR
code: 330100
Scheme of wall bracket holder
R84
3xØ8x120o
Ø197
• application: for mounting directly on the wall
• mounting: upwards or downwards
• material: arm – polypropylene, holder – polyamide
• diameter of the mounting luminaire: Ø60 mm
• luminaires: OS-1, OS-1 LED, OS-11 LED, OP
Czechowice Dziedzice / Poland
58. 57
PARK LIGHTING / PLASTIC WALL BRACKETS
WALL BRACKET KP
Wall bracket KP
code: 340200
475
298
735
Wall bracket KP
code: 340200
luminaire OP, lamp diffuser Sphere white Ø400
R84
3xØ8x120o
Ø197
• application: for mounting directly on the wall
• mounting: upwards or downwards
• material: arm – polypropylene, holder – polyamide
• diameter of the mounting luminaire: Ø60 mm
• luminaires: OS-1, OS-1 LED, OS-11 LED, OP, OPA-1 (upwards only)
Scheme of wall bracket holder
PARKLIGHTING
59. 58
OS-1
• protection degree: IP54
• insulation class: I
• material: UV resistant polypropylene with glass fibre
• colour: black
• mounting: upwards or downwards
• assembly: on poles type S, SP with spigot ending ”B”, on arm systems, wall
brackets KR, KP, columns, extension arms, aluminium wall brackets with spigot
ending Ø60 mm and length 60 mm
Luminaire OS-1,
frosted lamp diffuser
PARK LIGHTING / PARK LUMINAIRES
Czelabińsk / Russia
Assembling
on arm system
Assembling on pole
or arm system
Name
Code/lamp diffuser
Light source
Power
[W]
Weight
[kg]
Frosted Transparent
PMMA PC PMMA
OS-1 S-50W 2110001 211301 211201 Sodium E-27 50 4,9
OS-1 S-70W 2110002 211302 211202 Sodium E-27 70 5,2
OS-1 MH-70W 2110007 211307 211207 Metal halide E-27 70 5,2
OS-1 MH-100W – 211308 – Metal halide E-27 100 5,4
OS-1 R-125W 2110013 211313 211213 Mercury E-27 125 5,0
OS-1 E/Z 2110015 211315 211215 CompactfluorescentlampE-27 23 3,9
60. 59
375
695
Ø60x60
375
695
Ø60x60
OS-1
ending
cap
mounting plate with
electromagnetic
or electronic gear
frosted lamp diffuser
luminaire body
Luminaire OS-1
Distribution curve for luminaire OS-1
MH-100W transparent lamp diffuser with
stainless steel louvre reflector
Distribution curve for luminaire OS-1
S-70W Frosted lamp diffuser
PARK LIGHTING / PARK LUMINAIRES
PARKLIGHTING
61. 60
OP LUMINAIRE
Name
Code / lamp diffuser diameter
Light source
Power
[W]
Weight [kg] Type of lamp diffuser
OP 400 OP 450 OP 400 OP 450 OP 400 OP 450
OP S-50W 210101 –
Sodium E-27
50 2,1 – Atlanta Ø400, Sphere
Ø400, Klio Ø400
Sphere Ø450
OP S-70W 210102 210202 70 2,4 2,7
OP S-100W 210103 210203
Sodium E-40
100 2,6 2,9 Sphere Ø400
OP S-150W – 210204 150 – 3,5 –
OP MH-70W 210107 210207
Metal halide
E-27
70 2,4 2,7
Atlanta Ø400, Sphere
Ø400, Klio Ø400
OP MH-100W 210108 210208 100 2,6 2,8 Sphere Ø400
OP MH-150W – 210209 150 – 3,5 –
OP R-125W 210113 210213 Mercury E-27 125 2,1 2,4 Sphere Ø400
OP E/Z 210115 210215 Compact fluorescent lamp
E-27
23 1,0 1,3
Atlanta Ø400, Kula Ø400,
Klio Ø400
• protection degree: IP54
• insulation class: II
• material: base – polyamide, electrical gear cover – polycarbonate
• colour: black
• mounting: upwards or downwards
• assembly: on columns, aluminium and steel extension arms and arms systems
with spigot ending Ø60 mm and length 45 mm and on poles type S
and SP with spigot ending type ”B”.
• type of luminaires:
OP 400 – diameter of lamp diffuser neck Ø180 mm
OP 450 – diameter of lamp diffuser neck Ø200 mm
Luminaire OP, diffusers Sphere
transparent Ø400
small stainless steel louvre reflector upwards
Luminaire OP
PARK LIGHTING / PARK LUMINAIRES
Radomsko / Poland
62. 61
LUMINAIRE OP
Distribution curve for luminaire OP S-70W/400
transparent diffusers Sphere with small stainless
steel louvre reflector downwards
stainless steel
louvre reflector
universal mounting frame with
electromagnetic or electronic gear
luminaire base (PA)
cover (PC)
lamp
PARK LIGHTING / PARK LUMINAIRES
Mińsk / Belarus
PARKLIGHTING
63. 62
LUMINAIRE OZ
• protection degree: IP44
• insulation class: II
• material: polyamide with glass fibre
• colour: black
• mounting: only upwards
• assembly: on columns, extension arms, aluminium and steel wall brackets with spigot ending
Ø60 mm and length 70 mm (OZ 400) and on poles type S and SP with ending specially adapted
for OZ luminaire
• diameter of lamp diffuser neck Ø180 mm
Name Code Light source
Power
[W]
Weight
[kg]
Type of lamp diffuser
OZ 400 211415
Compact
fluorescent lamp
23 0,35
Sphere Ø400, Atlanta
Ø400, Klio Ø400
Luminaire OZ 400
Luminaire OZ 400, diffusers Klio white Ø400
ceramic holder E-27
locking handle
feeder cable
PARK LIGHTING / PARK LUMINAIRES
Luminaire OZ 400, diffusers Sphere
white Ø400
Ø52
97
70
Ø61
Ø188
Luminaire OZ-400
65. 64
LAMP DIFFUSERS WITH NECK Ø180 AND Ø200 MM
Name
Type
of material
Code Type
of luminaire
CodeWhite Transparent Smoked
Sphere 400 k-180
PC-UV 651168 – –
OP 400, OZ 400
(upwards only)
PC 651170 651172 651174
PMMA 651171 651173 651175
Sphere 400 k-180
painted upwards
PC 669170 669172 669174
PMMA 669171 669173 669175
Sphere 400 k-180
painted downwards
PC 670170 670172 670174
OP 400
PMMA 670171 670173 670175
Sphere 400 k-180
prismatic
PMMA – 652173 652175
OP 400, OZ 400
(upwards only)
Name
Type
of material
Code Type
of luminaire
CodeWhite Transparent Smoked
Sphere 450 k-200
PC-UV 651268 – –
OP 450
(upwards only)
PMMA 651281 651283 651285
Sphere 450 k-200
painted upwards
PMMA 669281 669283 669285
Sphere 450 k-200
painted downwards
PMMA 670281 670283 670285 OP 450
Ø400
Ø450
Ø198
Ø169
Ø149
Ø178
15
4
15
4
Sphere transparentSphere white
Sphere painted downwards
Sphere prismatic
Sphere painted upwards
• available in many various sizes, colours and material
• diameter of lamp diffuser neck Ø180 mm and Ø200 mm
PARK LIGHTING / LAMP DIFFUSERS
66. 65
LAMP DIFFUSERS WITH NECK Ø180 AND Ø200 MM
Name
Type
of material
Code Type of
luminaireWhite Transparent
Atlanta painted 400 PMMA 676181 – OP 400
OZ 400Atlanta prismatic painted 400 PMMA – 677181
Name
Type
of material
Code Type of
luminaire
Cap of polyamide
with glass fibre
in black colourWhite Smoked
Klio 400 PMMA 675171 675175
OP 400
OZ 400
923710
Atlanta painted Atlanta prismatic painted
Klio Klio with cap
ATLANTA
• diameter of lamp diffuser neck Ø180 mm
KLIO
• diameter of luminaire neck Ø180 mm
• additional element – cap
PARK LIGHTING / LAMP DIFFUSERS
Stepankovice / Czech Republic
Sochi / Russia
PARKLIGHTING
67. 66
Name Code Light source
Power
[W]
Weight
[kg]
Type of lamp diffuser
OPA-1 S-50W 211801
Sodium E-27
50 2,6 Auris, Auris Maxi, Auris I,
Auris Maxi I, Atlanta Ø500,
Sphere Ø400-500
OPA-1 S-70W 211802 70 2,9
OPA-1 S-100W 211803
Sodium E-40
100 3,1
OPA-1 S-150W 211804 150 3,8
Auris Maxi, Atlantis Ø500,
Sphere Ø450-500
OPA-1 MH-70W 211807
Metal halide
E-27
70 2,9 Auris, Auris Maxi, Auris I,
Auris Maxi I, Atlanta Ø500,
Sphere Ø400-500OPA-1 MH-100W 211808 100 3,1
OPA-1 MH-150W 211809 150 3,7
Auris Maxi, Atlamtis Ø500,
Sphere Ø450-500
OPA-1 R-125W 211813 Mercury E-27 125 2,6 Auris, Auris Maxi, Auris I,
Auris Maxi I, Atlanta Ø500,
Sphere Ø400-500OPA-1 E/Z 211815
Compact fluorescent lamp
E-27
23 1,3
LUMINAIRE OPA-1
Luminaire OPA-1
diffusers Sphere painted Ø400 upwards
Luminaire OPA-1
PARK LIGHTING / PARK LUMINAIRES
Tychy / Poland
• protection degree: IP65
• insulation class: II
• material: base – die cast aluminium alloy, electrical gear cover – polycarbonate,
• colour: black (possibility to paint in other colours – polyester powder paint)
• mounting: only upwards
• assembly: on columns, extension arms, aluminium and steel wall brackets with
spigot ending Ø60 mm, length 50 mm
• diameter of lamp diffuser neck: Ø150 mm
68. 67
LUMINAIRE OPA-1
Light distribution curve for luminaire OPA-1
S-70W lamp diffuser Sphere painted Ø400
Ø159
Ø30
Ø61x50
Ø62
243
107
small stainless steel
louvre reflector
lamp
cover (PC)
universal mounting frame
with electromagnetic
or electronic gear
aluminium luminaire
base
Luminaire OPA-1
PARK LIGHTING / PARK LUMINAIRES
Sucha Beskidzka / Poland
PARKLIGHTING
69. 68
LAMP DIFFUSERS WITH NECK Ø150 MM
Auris
Auris I
Auris Maxi
Auris Maxi I
Atlantis
PARK LIGHTING / LAMP DIFFUSERS
Name
Type
of material
Code Type
of luminaire
Cap of shaped aluminium
sheet – code black/otherTransparent
Auris without a cap
PC 660162
OPA-1
923602/923603
PMMA 660163
Auris I without a cap
PC 671162
PMMA 671163
Auris Maxi without a cap PC 660362
923662/923663
Auris Maxi I without a cap PC 671362
Atlantis frosted with a cap
painted in black
PMMA 662368
OPA-1 _
Atlantis frosted with a cap
painted in other colour
PMMA 670368
Daleszyce / Poland
70. 69
LAMP DIFFUSERS WITH NECK Ø150 MM
Cone
PARK LIGHTING / LAMP DIFFUSERS
Sphere painted upwardsTransparent Sphere
400-500
Tychy / Poland
Name Plastic type
Code
Luminaires
White Transparent Gold
Cone 400 k-150
PC-UV – 655168 –
OW, OP
PC 655160 655162 655166
Sphere 400 k-150 PC – 651162 – OPA-1, OW
Sphere 400 k-150
painted upwards
PC – 669162 – OPA-1
Sphere 450 k-150 PC – 651262 – OPA-1, OW
Sphere 450 k-150
painted upwards PC – 669262 – OPA-1
Sphere 500 k-150 PC – 651362 – OPA-1
PARKLIGHTING
71. 70
LUMINAIRE OW
• protection degree: IP65
• insulation class: II
• material: base – high-pressure die-cast aluminium, casing – polyamide,
cap – shaped aluminium sheet, electrical gear cover – polycarbonate
• colour: black (possibility to paint in other colours – polyester powder paints)
• mounting: only downwards
• assembly: on columns, extension arms, aluminium and steel wall brackets
with spigot ending Ø42 mm, length 40 mm
• diameter of lamp diffuser neck: Ø150 mm
Name Code Light source
Power
[W]
Weight
[kg]
Type of lamp
diffuser
OW S-50W 210901
Sodium E-27
50 4,3 Sphere Ø400-450,
Cone Ø300-400OW S-70W 210902 70 4,6
OW S-100W 210903
Sodium E-40
100 4,9
Sphere Ø400-450,
Cone Ø400
OW S-150W 210904 150 5,5
Sphere Ø450,
Cone Ø400
OW MH-70W 210907
Metal halide E-27
70 4,6 Sphere Ø400-450,
Cone Ø300-400OW MH-100W 210908 100 4,8
OW MH-150W 210909 150 5,4
Sphere Ø450,
Cone Ø400
OW R-125W 210913 Mercury E-27 125 4,4
Sphere Ø400-450,
Cone Ø400
OW E/Z 210915
Compact fluorescent
lamp E-27
23 3,2
Sphere Ø400-450,
Cone Ø300-400
Luminaire OW,
diffusers Cone white Ø400
Luminaire OW
PARK LIGHTING / PARK LUMINAIRES
Suwałki / Poland
72. 71
LUMINAIRE OW
aluminium luminaire base
universal mounting frame
with electromagnetic
or electronic gear
plastic casing (PA)
with aluminium cap
cover (PC)
lamp
diffusers Cone
Luminaire OW
Ø42,5
Ø32
600
370
164
41
20
Light distribution curve for luminaire OW S-100W
diffusers Cone white Ø400
PARK LIGHTING / PARK LUMINAIRES
Mikołów / Poland
PARKLIGHTING
73. 72
LUMINAIRE ELBA
Name Lamp diffuser Code Light source
Power
[W]
Weight
[kg]
ELBA S-70W
white 213402
Sodium E-27 70
6,3
transparent 213602 6,5
ELBA S-100W
white 213403
Sodium E-40 100
6,7
transparent 213603 6,9
ELBA MH-70W
white 213407
Metal halide E-27
70
6,3
transparent 213607 6,5
ELBA MH-100W
white 213408
100
6,7
transparent 213608 6,9
ELBA E/Z
white 213415 Compact fluorescent lamp
E-27
23
5,0
transparent 213615 5,2
Luminaire ELBA
with transparent lamp diffuser
Luminaire ELBA
with white lamp diffuser
PARK LIGHTING / PARK LUMINAIRES
• protection degree: IP65
• insulation class: II
• material: casing – high-pressure die-cast aluminium, electrical gear cover – polycarbonate, lamp-diffuser
– UV stabilized polycarbonate in white and transparent version, cylindrical Ø200 mm,
cap – shaped aluminium sheet
• colour: black (possibility to paint in other colours – polyester powder paints)
• mounting: only upwards
• assembly: on columns, extension arms, aluminium and steel wall brackets with spigot ending Ø60 mm, length 50 mm
Kielce / Poland
74. 73
LUMINAIRE ELBA
Light distribution curve for luminaire ELBA S-100 W
white lamp diffuser
600
Ø60
Ø30
51
420
115
530
nuts
cover
connection sleeves
cap
lamp diffuser
universal mounting frame
with electromagnetic
or electronic gear
cover (PC)
lamp
luminaire base
(aluminium)
Luminaire ELBA
PARK LIGHTING / PARK LUMINAIRES
Gorzów Wielkopolski / Poland
PARKLIGHTING
75. 74
STAINLESS STEEL LOUVRE REFLECTORS
• application: for installation in park luminaires
• material: stainless steel
• assembly: by screwing into the luminaire casing with no tools needed,
in case of luminaire OS-1 it is assembled directly to the luminaires’
mounting plate
• functions: control of light distribution, glare reduction, decoration
Big stainless steel louvre
reflector mounted upwards
Small stainless steel louvre
reflector mounted upwards
Small stainless steel louvre
reflector for luminaire OS-1
Name Code Luminaire type Lamp-holder type
Big louvre reflector upwards 911116 OP, OPA-1
E-40
Big louvre reflector downwards 911117 OP, OW
Small louvre reflector mounted upwards 911126 OP, OPA-1
E-27Small louvre reflector mounted downwards 911127 OP, OW
Stainless reflector for luminaire OS-1 911307 OS-1
Big stainless steel louvre
reflector mounted downwards
Small stainless steel louvre
reflector mounted upwards
129,5
242,5
129,5
187
PARK LIGHTING / PARK LUMINAIRES
77. 76
OS-1 LED
Name
Temperature
[K]
Code
Power / Number
of LEDs
[W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting efficiency
[lm/W]
Weight
[kg]
OS- 1 LED
5 000 211331/6
32/16 39
2 850 73
5,2
3 500 211331/3 2 650 68
Light distribution curve for luminaire OS-1 LED
Luminaire OS-1 LED
on pole S-31W with height of 3,32 m
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE XT-E
• material: polypropylene with UV resistant glass fibre
• colour: black
• mounting: upwards or downwards
• assembly: on poles type S, SP with spigot ending ”B”, on arms system, wall brackets KR, KP,
extension arms, aluminium and steel wall brackets with spigot Ø60 and length 60 mm
• recommended mounting height: 4-5 m
• luminaire is adapted to work in temperatures between -40˚C and +40˚C
* Due to the LED precision class the tolerance value is +/- 3%
PARK LIGHTING / PARK LUMINAIRES
375
wewn. Ø60x60
Ø80
670
inside Ø60x60
78. 200
OS-1 LED
PARK LIGHTING / PARK LUMINAIRES
ending
support plate with
LED modules and
driver
luminaire body
cap
Pszczyna / Poland
PARKLIGHTING
79. 78
OS-11 LED
PARK LIGHTING / PARK LUMINAIRES
Name
Temperature
[K]
Code
Power / Num-
ber of LEDs
[W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting efficiency
[lm/W]
Weight
[kg]
OS- 11 LED 3 500 2110050/3 38/1 43 4 000 64 5,3
Light distribution curve for luminaire
OS-11 LED
Luminaire OS-11 LED
on pole S-31W with height of 3,32 m
• protection degree: IP54
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE LMH2
• material:
body – polypropylene with UV resistant glass fibre
diffuser – frosted PMMA (polymethyl methacrylate)
• colour: black
• mounting: upwards or downwards
• assembly: on poles type S with spigot ending ”B”, on arms systems, wall brackets KR, KP,
extension arms, aluminium and steel wall brackets with spigot Ø60
• recommended mounting height: 4-5 m
• luminaire is adapted to work in temperatures between -40˚C and +40˚C
* Due to the LED precision class the tolerance value is +/- 7%
375
wewn. Ø60x60
Ø80
670
inside Ø60x60
80. 83
OS-11 LED
PARK LIGHTING / PARK LUMINAIRES
ending
support plate with LED
modules and driver
lamp diffuser
luminaire body
cap
PARKLIGHTING
81. 80
ELBA LED
PARK LIGHTING / PARK LUMINAIRES
Name
The colour
temperature
of light [K]
code
colour
black / other
Power / Number
of LEDs
[W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting efficiency
[lm/W]
Weight
[kg]
ELBA LED 3 500
213050/3
213150/3
38/1 43 3 200 74 5
* Due to the LED precision class the tolerance value is +/- 7%
Light distribution curve for luminaire ELBA LED
Ø600
530
420
wewn. Ø61x50
• protection degree: IP65
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE LMH2
• material:
casing – high-pressure die-cast aluminium
diffuser – frosted cylindrical Ø200 mm (PMMA)
cap – shaped aluminium sheet
• colour: black (possibility to paint in other colours – polyester powder paints)
• mounting: only upwards
• assembly: on columns, extension arms, aluminium and steel wall brackets with
spigot ending Ø60, length 50 mm
• recommended mounting height: 4-6 m
• luminaire is adapted to work in temperatures between -40˚C and +55˚C
inside Ø61x50
82. 77
ELBA LED
PARK LIGHTING / PARK LUMINAIRES
nuts
cover with LED module
connection sleeves
diffuser
aluminium luminaire base
with the power supply unit
cap
PARKLIGHTING
83. 82
GEMINI LED
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE XM-L2
• material: anodised aluminium alloy
• colour: inox/black
• assembly: on extension arms with spigot ending Ø60, length 100 mm
• recommended mounting height: 5-6 m
• luminaire is adapted to work in temperatures between -40˚C and +40˚C
PARK LIGHTING / PARK LUMINAIRES
Light distribution curve for a luminaire
GEMINI LED
Luminaire GEMINI LED
on the column SAL DS-52
with height of 5,5 m
595
645
150
Ø76
335
wewn.Ø61x100
* Due to the LED precision class the tolerance value is +/- 3%
Name
The colour
temperature of light
[K]
Code
Power / Number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting efficiency
[lm/W]
Weight
[kg]
GEMINI LED 36
5 000 214332/6
36/12 42
5 000 119
9,5
3 500 214332/3 3 850 92
GEMINI LED 48
5 000 214333/6
48/16 55
6 650 121
3 500 214333/3 5 200 95
insideØ61x100
85. 84
ISKRA LED
• protection degree: IP66
• insulation class: II
• supply voltage: 100-240 V AC, 50/60 Hz
• light source:
ISKRA LED ALFA 24 – CREE XT-E
ISKRA LED 24 – CREE XT-E
ISKRA LED ALFA 36 – CREE XM-L2
ISKRA LED 36 – CREE XM-L2
• material: anodised aluminium alloy
• colour: inox / black
• assembly: ISKRA LED ALFA – directly on the column with spigot ending Ø60 mm, length 80 mm
ISKRA LED – on extension arm with spigot ending Ø60 mm, length 90 mm
• recommended mounting height: 4-5 m
• luminaire is adapted to work in temperatures between -40˚C and +55˚C
PARK LIGHTING / PARK LUMINAIRES
Light distribution curve for a luminaire ISKRA LED
* Due to the LED precision class the tolerance value is +/- 3%
ISKRA LED
ISKRA LED ALFA
Name
The colour
temperature
of light [K]
Code
Power / Number
of LEDs [W/pcs]
Total power
[W]
Luminous
flux [lm]*
Lighting
efficiency
[lm/W]
Weight
[kg]
ISKRA LED ALFA 24
5 000 213330/6
24/12 28
2 500 89
2,2
3 500 213330/3 1 950 70
ISKRA LED ALFA 36
5 000 213332/6
36/12 42
5 000 119
3 500 213332/3 3 850 92
ISKRA LED 24
5 000 213230/6
24/12 28
2 500 89
3 500 213230/3 1 950 70
ISKRA LED 36
5 000 213232/6
36/12 42
5 000 119
3 500 213232/3 3 850 92
Luminaire ISKRA LED ALFA
on column SAL-4 with a height of 4 m
87. 86
ATLANTIS LED
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE LMH2
• material:
cap and base – anodised aluminium alloy
diffuser – frosted PMMA
• colour: inox
• assembly: on columns with spigot ending Ø60 mm, length 50 mm
• recommended assembly height: 4-6 m
• luminaire is adapted to work in temperatures between -40˚C and +55˚C
Name
The colour
temperature of light
[K]
Code
Power / Number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting
efficiency
[lm/W]
Weight [kg]
ATLANTIS LED 3 500 214650/3 38/1 43 3 500 81 4,6
Light distribution curve for ATLANTIS LED luminaire
PARK LIGHTING / PARK LUMINAIRES
Luminaire ATLANTIS LED
on column SAL-4 (4 m high)* Due to LED precision class, the value tolerance is +/-7%
wewn. Ø61x50
Ø370
515
inside Ø61x50
89. 88
MIRA LED
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE XM-L2
• material: anodised aluminium alloy
• colour: inox/graphite
• assembly: on columns with spigot ending Ø60 mm, length 50 mm
• recommended assembly height: 4-5 m
• luminaire is adapted to work in temperatures between -40˚C and +40˚C
Name
The colour
temperature of
light [K]
Code
Power / Number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting
efficiency
[lm/W]
Weight [kg]
MIRA LED
5 000 214532/6
36/12 42
5 000 119
6,1
3 500 214532/3 3 850 92
Ø72
wewn. Ø61x80
90
475
585
420
10o
Light distribution curve for MIRA LED luminaire
PARK LIGHTING / PARK LUMINAIRES
Luminaire MIRA LED on column
SAL-4/B60 (4 m high)
* Due to LED precision class, the value tolerance is +/-3%
inside Ø61x80
91. 90
MIZAR LED
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE XM-L2
• material: anodised aluminium alloy
• colour: inox/graphite
• assembly: on columns with spigot ending Ø60 mm, length 80 mm
• recommended assembly height: 5-6 m
• luminaire is adapted to work in temperatures between -40˚C and +55˚C
Name
The colour
temperature of
light [K]
Code
Power / Number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting
efficiency
[lm/W]
Weight
[kg]
MIZAR LED
5 000 214433/6
48/16 55
6 650 121
9,2
3 500 214433/3 5 200 95
Light distribution curve for MIZAR LED luminaire
505
230
570
90
635
Ø76
wewn. Ø61x80
PARK LIGHTING / PARK LUMINAIRES
Luminaire MIZAR LED on column
SAL-4/B60 (4 m high)* due to LED precision class, the value tolerance is +/-3%
inside Ø61x80
93. 92
CORONA LED
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277V, AC, 50/60 Hz
• light source: CREE XT-E
• material: anodised aluminium alloy
• colour: inox/graphite
• assembly: on columns with spigot ending Ø60 mm, length 95 mm
• recommended assembly height: 5-7 m
• luminaire is adapted to work in temperatures between
-40˚C and +55˚C
Name
The colour
temperature of light
[K]
Code
Power / Number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting
efficiency
[lm/W]
Weight
[kg]
CORONA LED 5 000 214735/6 72/36 80 5 000 63 13
Ø80
Ø600
Ø400
wewn. Ø61x95
Light distribution curve for CORONA LED luminaire
PARK LIGHTING / PARK LUMINAIRES
Luminaire CORONA LED
on column SAL DL-3 (6 m high)
* due to LED precision class, the value tolerance is +/-3%
inside Ø61x95
95. 94
COSMO DELTA LED
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE XM-L2
• material: anodised aluminium alloy
• colour: inox/black
• assembly: on columns with spigot ending Ø60 mm, length 85 mm
• recommended assembly height: 6-8 m
• luminaire is adapted to work in temperatures between -40˚C and +55˚C
Name
The colour
temperature of
light [K]
Code
Power / Number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting
efficiency
[lm/W]
Weight
[kg]
COSMO DELTA LED
5 000 214835/6
72/24 80
10 000 125
11
3 500 214835/3 7 750 97
Ø80
671
831
wewn. Ø61x85
Light distribution curve for COSMO DELTA LED
luminaire
PARK LIGHTING / PARK LUMINAIRES
Luminaire COSMO DELTA LED on column
SAL DL-3 (6 m high)* due to LED precision class, the value tolerance is +/-3%
inside Ø61x85
97. 96
VEGA LED
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE XM-L2
• material: anodised aluminium alloy
• colour: inox/graphite
• mounting:
VEGA LED – on extension arms with spigot ending Ø60 mm, length 100 mm
VEGA LED ALFA – on columns with spigot ending Ø60 mm, length 100 mm
VEGA LED BETA – on columns with spigot ending Ø60 mm, length 95 mm, in a centric way
• recommended assembly height: 4,5-8 m
• luminaire is adapted to work in temperatures between -40˚C and +55˚C
Name
The colour
temperature of
light [K]
Code
Power / Number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting
efficiency
[lm/W]
Weight
[kg]
VEGA LED 60
5 000 214134/6
60/20 68
8 300 122
10,5
3 500 214134/3 6 450 95
VEGA LED ALFA 60
5 000 214234/6 8 300 122
3 500 214234/3 6 450 95
VEGA LED BETA 60
5 000 214034/6 8 300 122
9,5
3 500 214034/3 6 450 95
670
Ø508
60
93
76wewn.Ø61x100
150
78
VEGA LED
Ø508
wewn. Ø61x100
595
182
76
150
60
VEGA LED ALFA
Ø508
wewn. Ø61x95
Ø76
100
160
VEGA LED BETA
PARK LIGHTING / PARK LUMINAIRES
VEGA LED ALFA
VEGA LED BETA
VEGA LED
* due to LED precision class, the value tolerance is +/-3%
inside Ø61x100
inside Ø61x95
insideØ61x100
98. 97
VEGA LED
Light distribution curve for VEGA LED ALFA luminaire
Light distribution curve for VEGA LED BETA luminaire
PARK LIGHTING / PARK LUMINAIRES
1. Luminaire VEGA LED on column SAL DL-2 (5,5 m high)
2. Luminaire VEGA LED BETA on column SAL DL-5 (4,5 m high)
1. 2.
Tychy / Poland
PARKLIGHTING
99. 98
DROP LED
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE XM-L2
• material: anodised aluminium alloy
• colour: inox/graphite
• assembly: on extension arm or wall bracket with spigot ending Ø42 mm
length 30 mm
• recommended assembly height: 5-6 m
• luminaire is adapted to work in temperatures between -40˚C and +40˚C
* due to LED precision class, the value tolerance is +/-3%
A – asymmetric optical system
S – symmetric optical system
Name
The colour
temperature
of light [K]
Code
Power / Number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting
efficiency
[lm/W]
Weight
[kg]
DROP LED 48
5 000
214933/6/A
214933/6/S
48/16 55
6 650 121
6,5
3 500
214933/3/A
214933/3/S
5 200 95
Ø60
wewn. Ø42,5x30
18
451
Ø300Light distribution curve for luminaire
DROP LED, symmetric
Light distribution curve for luminaire
DROP LED, asymmetric
PARK LIGHTING / PARK LUMINAIRES
Luminaire DROP LED on column 5 m
high with extension arm
(set DROP I LED)
inside Ø42,5x30
103. 102
CUT LED
200
300
400
500
cd/klm
C0 - C180 C90 - C270
0° 15° 30°
45°
60°
75°
90°
105°105°
90°
75°
60°
45°
30° 15° 0°
Light distribution curve for CUT LED
800
95
95
150
8
1000
5000
1100400
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE XT-E
• material: anodised aluminium alloy
• standard colour: inox
• decorative element made of aluminium in grey colour or PMMA
(possibility to make decorative backlight of decorative elements)
• luminaire is adapted to work in temperatures between
-40˚C and +55˚C
* due to LED precision class, the value tolerance is +/-3%
Name
Colour
temperature
[K]
Code
Power / number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting efficiency
[lm/W]
Concrete footing/Rein-
forcement basket
CUT LED 24 5 000 216030/6 24/12 31 2 300 74 B-50 / Z-50
CUT LED 48 5 000 216033/6 48/24 55 4 550 83 B-50 / Z-50
PARK LIGHTING / LIGHTING SETS
180
224
105. 104
STICK LED
760
180
8
400
5000
600
200
300
400
500
cd/klm
C0 - C180 C90 - C270
0° 15° 30°
45°
60°
75°
90°
105°105°
90°
75°
60°
45°
30° 15° 0°
Light distribution curve for STICK LED
Name
Colour
temperature
[K]
Code
Power / number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting efficiency
[lm/W]
Concrete footing/Rein-
forcement basket
STICK LED 24 5 000 217030/6 24/12 31 2 300 74
B-60/Z-60
STICK LED 48 5 000 217033/6 48/24 55 4 550 83
STICK II LED 24 5 000 217130/6 2 x 24/2 x 12 2 x 31 2 x 2 300 74
STICK II LED 48 5 000 217133/6 2 x 48/2 x 24 2 x 55 2 x 4 550 83
STICK III LED 24 5 000 217430/6 3 x 24/3 x 12 3 x 31 3 x 2 300 74
STICK III LED 48 5 000 217433/6 3 x 48/3 x 24 3 x 55 3 x 4 550 83
STICK IV LED 24 5 000 217630/6 4 x 24/4 x 12 4 x 31 4 x 2 300 74
STICK IV LED 48 5 000 217633/6 4 x 48/4 x 24 4 x 55 4 x 4 550 83
* due to LED precision class, the value tolerance is +/-3%
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE XT-E
• material: anodised aluminium alloy
• standard colour: inox/grey
• possible to produce any configuration of the lighting
arms from 1 to 4
• luminaire is adapted to work in temperatures between
-40˚C and +55˚C
PARK LIGHTING / LIGHTING SETS
250
320
107. 106
DROP I LED
DROP I LED / DROP II LED
180
224
Ø120
Ø300
920
Ø60
95
400
4575
5230
500
Light distribution curve for DROP I LED/DROP II LED,
asymmetric
* due to LED precision class, the value tolerance is +/-3%
S – symmetric optical system
A – asymmetric optical system
Name
Colour
temperature
[K]
Code
Power / number of
LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting efficiency
[lm/W]
Concrete footing/Rein-
forcement basket
DROP I LED 48
5 000
215033/6/A
215033/6/S
48 / 16 55
6 650 121
B-50 / Z- 50
3 500
215033/3/A
215033/3/S
5 200 95
DROP II LED 48
5 000
215133/6/A
215133/6/S
2 x 48 / 2 x 16 2 x 55
2 x 6 650 121
3 500
215133/3/A
215133/3/S
2 x 5 200 95
• protection degree: IP66
• insulation class: II
• supply voltage: 120-277 V AC, 50/60 Hz
• light source: CREE XM-L2
• material: anodised aluminium alloy
• standard colour: inox/graphite
• luminaire is adapted to work in temperatures between -40˚C and +40˚C
Light distribution curve for DROP I LED/DROP II LED,
symmetric
PARK LIGHTING / LIGHTING SETS
108. 107
DROP I LED / DROP II LED
Ø300
400500
4575
5230
95
Ø60
Ø300
1780
Ø120180
224
DROP II LED
PARK LIGHTING / LIGHTING SETS
PARKLIGHTING
109. 180
224
160
140
660
1080
4000/5000
400600
90
102
108
FLEXI LED
Light distribution curve for FLEXI LED,
symmetric
Light distribution curve for FLEXI LED,
asymmetric
Name
Colour
temperature
[K]
Code
Power / number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting efficiency
[lm/W]
Concrete footing/Rein-
forcement basket
FLEXI LED 24
5 000
215530/6/S
24 / 8 28
2 550 88
B-50 / Z- 50
215530/6/A 2 350 81
3 500
215530/3/S 2 000 69
215530/3/A 1 850 64
FLEXI LED 48
5 000
215533/6/S
48 / 16 55
5 100 93
215533/6/A 4 700 85
3 500
215533/3/S 3 950 72
215533/3/A 3 700 67
• protection degree: IP66
• insulation class: II
• supply voltage:
120-277 V AC, 50/60 Hz (FLEXI LED 48)
220-240 V AC, 50/60 Hz (FLEXI LED 24)
• light source: CREE XT-E
• material: anodised aluminium alloy
• standard colour: inox/graphite
• luminaire is adapted to work in temperatures between -40˚C and +55˚C
* due to the precision class of diodes tolerance is +/-3%
S – symmetric optics
A – asymmetric optics
PARK LIGHTING / LIGHTING SETS
111. 110
KARIN LED
h
D
H
95
400600h
D
H
KARIN
450 LED
KARIN
600 LED
KARIN
900 LED
KARIN
1200 LED
KARIN
1200 W LED
KARIN
2400 LED
KARIN
3600 LED
KARIN
4800 LED
KARIN
6000 LED
• protection degree: IP65
• insulation class: II
• supply voltage:
100-240 V AC, 50/60 Hz (KARIN 450-1200 LED)
120-277 V AC, 50/60 Hz (KARIN 2400-6000 LED)
• light source: CREE XT-E
• lamp-diffuser: frosted PMMA
• material: anodised aluminium alloy
KARIN LED 3600-6000 KARIN LED 450-1200
PARK LIGHTING / LIGHTING COLUMNS
112. 111
KARIN LED
Light distribution curve for column
KARIN LED 450-1200
Light distribution curve for column
KARIN LED 4800
Name
Colour
temperature
[K]
Code
Power /
number of LEDs
[W/pcs]
Total
power [W]
Luminous
flux
[lm]*
Lighting efficiency
[lm/W]
Height H
[mm]
Lamp-diffuser
height h
[mm]
Diameter D
[mm]
Concrete
footing/Re-
inforcement
basket
KARIN 450 LED
5 000 45200/6/C..
16/8 21
1 050 50
450
113 150
B-0 / Z-0
3 500 45200/3/C.. 1 000 48
KARIN 600 LED
5 000 45210/6/C.. 1 050 50
600
3 500 45210/3/C.. 1 000 48
KARIN 900 LED
5 000 45220/6/C.. 1 050 50
900
3 500 45220/3/C.. 1 000 48
KARIN 1200 LED
5 000 45230/6/C.. 1 050 50
1200 B-0A / Z-0A
3 500 45230/3/C.. 1 000 48
KARIN 1200W LED
5 000 45232/6/C.. 1 050 50
3 500 45232/3/C.. 1 000 48
KARIN 2400 LED 5 000 45240/6/C.. 32 / 16 39 2 150 55 2 400 908 150 B-50 / Z-50
KARIN 3600 LED 5 000 45250/6/C.. 48 /24 58 4 550 78 3 600 915 180 B-60 / Z-60
KARIN 4800 LED 5 000 45260/6/C.. 88 / 44 100 7 100 71 4 800 915 200 B-60 / Z-60
KARIN 6000 LED 5 000 45270/6/M 116 / 58 134 9 150 68 6 000 915 300 B-71 / Z-71
C… – choice of anodising colour
M – painted according RAL palette
* due to the precision class of diodes tolerance is +/-3%
PARK LIGHTING / LIGHTING COLUMNS
Tychy / Poland
PARKLIGHTING
113. 112
KARIN DECOR LED
Light distribution curve for columns
KARIN DECOR LED
Name
Colour
temperature
[K]
Code
Power / num-
ber of LEDs [W/
pcs]
Total power
[W]
Luminous flux
[lm]*
Lighting
efficiency
[lm/W]
Height H
[mm]
Lamp-diffuser
height h
[mm]
Diameter D
[mm]
Concrete
footing/Reinfor-
cement basket
KARIN DECOR 2400 LED 5 000 45241/6/C.. 32/16 39 1 600 41 2 400 908 150 B-50 / Z-50
KARIN DECOR 3600 LED 5 000 45251/6/C.. 48/24 58 3 400 59 3 600 915 180 B-60 / Z-60
KARIN DECOR 4800 LED 5 000 45261/6/C.. 88/44 100 5 350 54 4 800 915 200 B-60 / Z-60
• protection degree: IP65
• insulation class: II
• supply voltage: 100-277 V AC, 50/60 Hz (KARIN DECOR 2400-4800 LED)
• light source: CREE XT-E
• lamp-diffuser: frosted PMMA
• material: anodised aluminium alloy
• decorative element on the lamp diffuser
* due to the precision class of diodes tolerance is +/-3%
C… – choice of anodising colour
95
400600h
D
H
PARK LIGHTING / LIGHTING COLUMNS
KARIN DECOR LED 3600-4800
115. 114
SA BOLLARDS
SAM bollards – white cylindrical diffuser PC-UV
SAP bollards – transparent cylindrical diffuser PC-UV with steel louvre reflector
Types of bollards:
on concrete footing and rooted (marked“dz”in the name)
with round and flat cap (marked …/P in the product code)
Types of light sources:
S – sodium: 50W, 70W
MH – metal halide 70W, 100W
E/Z – 23W compact fluorescent lamps
Technical information:
• protection degree: IP65
• insulation class: II
• supply voltage: 230 V AC, 50 Hz
C… – choice of anodising colour. W – bollard with niche chamber.
lamp diffuser
lamp
cover (PC)
universal gear
frame with
accessories
cylindrical tube
screw M6 x 12
base plate
PARK LIGHTING / LIGHTING COLUMNS
Name
Code
Height H
[mm]
Concrete footingS-50W
E-27
S-70W
E-27
MH-70W
E-27
MH-70W
Electronic
E-27
MH-100W
E-27
Fluorescent
lamp
23W E-27
SAM 600
round 45001/C.. 45002/C.. 45002/C.. 45003E/C.. 45004/C.. 45006/C.. 600 B-0, B-0A
Z-0, Z-0Aflat 45001/C../P 45002/C../P 45002/C../P 45003E/C../P 45004/C../P 45006/C../P 580
SAM 600 dz
round 45060/C.. 45061/C.. 45062/C.. 45062E/C.. 45063/C.. 45066/C.. 600
X
flat 45060/C../P 45061/C../P 45062/C../P 45062E/C../P 45063/C../P 45066/C../P 580
SAM 900
round 45008/C.. 45009/C.. 45010/C.. 45010/C.. 45011/C.. 45014/C.. 900 B-0, B-0A
Z-0, Z-0Aflat 45008/C../P 45009/C../P 45010/C../P 45010/C../P 45011/C../P 45014/C../P 880
SAM 900 dz
round 45067/C.. 45068/C.. 45069/C.. 45069E/C.. 45070/C.. 45073/C.. 900
X
flat 45067/C../P 45068/C../P 45069/C../P 45069E/C../P 45070/C../P 45073/C../P 880
SAM 1200
round 45015/C.. 45016/C.. 45017/C.. 45017E/C.. 45018/C.. 45021/C.. 1 200
B-0A / Z-0A
flat 45015/C../P 45016/C../P 45017/C../P 45017E/C../P 45018/C../P 45021/C../P 1 180
SAM 1200 dz
round 45074/C.. 45075/C.. 45076/C.. 45076E/C.. 45077/C.. 45080/C.. 1 200
X
flat 45074/C../P 45075/C../P 45076/C../P 45076E/C../P 45077/C../P 45080/C../P 1 180
SAM 1200W
round 45022/C.. 45023/C.. 45024/C.. 45024E/C.. 45025/C.. 45028/C.. 1 200
B-0A / Z-0A
flat 45022/C../P 45023/C../P 45024/C../P 45024E/C../P 45025/C../P 45028/C../P 1 180
SAM 1200W dz
round 45081/C.. 45082/C.. 45083/C.. 45083E/C.. 45084/C.. 45087/C.. 1 200
X
flat 45081/C../P 45082/C../P 45083/C../P 45083E/C../P 45084/C../P 45087/C../P 1 180
Light
source
Cap
Paczółtowice / Poland
116. 115
SA BOLLARDS
SAM dz/P SAM dzSAM /P SAM SAM 1200W
H
Ø150
550
zabezpieczenie
elastomerem
50
500
15050
Ø150
H
H
Ø150
550
zabezpieczenie
elastomerem
50
500
15050
Ø150
H
H
Ø150
85
400220
Name
Code
Height H
[mm]
Concrete footingS-50W
E-27
S-70W
E-27
MH-70W
E-27
MH-70W
Electronic
E-27
MH-100W
E-27
Fluorescent
lamp
23W E-27
SAP 600
round 45030/C.. 45031/C.. 45032/C.. 45032E/C.. 45033/C.. 45036/C.. 600 B-0, B-0A
Z-0, Z-0Aflat 45030/C../P 45031/C../P 45032/C../P 45032E/C../P 45033/C../P 45036/C../P 580
SAP 600 dz
round 45088/C.. 45089/C.. 45090/C.. 45090E/C.. 45091/C.. 45094/C.. 600
X
flat 45088/C../P 45089/C../P 45090/C../P 45090E/C../P 45091/C../P 45094/C../P 580
SAP 900
round 45037/C.. 45038/C.. 45039/C.. 45039E/C.. 45040/C.. 45043/C.. 900 B-0, B-0A
Z-0, Z-0Aflat 45037/C../P 45038/C../P 45039/C../P 45039E/C../P 45040/C../P 45043/C../P 880
SAP 900 dz
round 45095/C.. 45096/C.. 45097/C.. 45097E/C.. 45098/C.. 45101/C.. 900
X
flat 45095/C../P 45096/C../P 45097/C../P 45097E/C../P 45098/C../P 45101/C../P 880
SAP 1200
round 45044/C.. 45045/C.. 45046/C.. 45046E/C.. 45047/C.. 45050/C.. 1 200
B-0A / Z-0A
flat 45044/C../P 45045/C../P 45046/C../P 45046E/C../P 45047/C../P 45050/C../P 1 180
SAP 1200 dz
round 45102/C.. 45103/C.. 45104/C.. 45104E/C.. 45105/C.. 45108/C.. 1 200
X
flat 45102/C../P 45103/C../P 45104/C../P 45104E/C../P 45105/C../P 45108/C../P 1 180
SAP 1200W
round 45051/C.. 45052/C.. 45053/C.. 45053E/C.. 45054/C.. 45056/C.. 1 200
B-0A / Z-0A
flat 45051/C../P 45052/C../P 45053/C../P 45053E/C../P 45054/C../P 45056/C../P 1 180
SAP 1200W dz
round 45109/C.. 45110/C.. 45111/C.. 45111E/C.. 45112/C.. 45115/C.. 1 200
X
flat 45109/C../P 45110/C../P 45111/C../P 4511E/C../P 45112/C../P 45115/C../P 1 180
Cap
Light
source
PARK LIGHTING / LIGHTING COLUMNS
C… – choice of anodising colour. W – bollard with niche chamber.
Mielec / Poland
550
Elastomer
protection
550
Elastomer
protection
PARKLIGHTING
117. 116
Ø860
3404000
400500
95
8
Name Code Light source
Insulation
class Supply voltage [V]
Supply current
[A]
Power /
number of
LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Concrete footing/
Reinforcement
basket
SAL DECO-1 42920/C.. MH-150W lamp cap G12 I 230V AC, 50/60 Hz 0,85 – 167 4 860 B-51A / Z-51A
SAL DECO-1 LED 42928/C..
CREE MK-R
5000 K
II 120-277V AC, 50/60 Hz 0,7 65/8 73 7 450 B-51A / Z-51A
C… - choice of anodising colour
* due to the precision class of diodes tolerance is +/-3%
SAL DECO-1 / SAL DECO-1 LED
• protection degree: IP65
• construction: electrical equipment built in the upper part of the column and closed by
refractory glass; cap with external reflector in the form of convex mirrored squares; 3 arms
connect column with round roof
• material: anodised aluminium alloy
PARK LIGHTING / LIGHTING COLUMNS
Andrychów / Poland
118. 117
Name Code Light source
Insulation
class
Supply voltage [V]
Supply current
[A]
Power /
number of
LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Concrete footing/
Reinforcement
basket
SAL DECO-2 42921/C.. MH-150W lamp cap G12 I 230V AC, 50/60 Hz 0,85 – 167 4 600 B-51A / Z-51A
SAL DECO-2 LED 42929/C..
CREE MK-R
5000 K
II 120-277V AC, 50/60 Hz 0,7 65/8 73 7 450 B-51A / Z-51A
C… - choice of anodising colour
* due to the precision class of diodes tolerance is +/-3%
SAL DECO-2 / SAL DECO-2 LED
• protection degree: IP65
• construction: electrical equipment built in the upper part of the column and clo-
sed by refractory glass; cap with external reflector in the form of convex mirrored
squares; 2 arms connect column with rectangular roof
• material: anodised aluminium alloy
PARK LIGHTING / LIGHTING COLUMNS
800
95
400
4000
4600
500
8
1055
20O
-30O
200
Łódź / Poland
PARKLIGHTING
119. 118
SAL DECO-3 / SAL DECO-3 LED
• protection degree: IP65
• cylindrical white lamp-diffuser PC-UV, aluminium decorative elements
• material: anodised aluminium alloy
95
Ø180
8
400600
3500
1550
Distribution curve for SAL DECO-3 LED
C… – choice of anodising colour
* due to the precision class of diodes tolerance is +/-3%
Name Code Light source
Insulation
class
Supply voltage
[V]
Supply current
[A]
Power / number
of LEDs [W/pcs]
Total power
[W]
Luminous flux
[lm]*
Concrete footing/
Reinforcement
basket
SAL DECO-3 42922/C..
MH-150W
lamp cap G12
I 230V AC, 50/60 Hz 0,85 – 167 4 030 B -51/ Z-51
SAL DECO-3 LED 42923/C..
CREE XT-E
5000 K
II
120-277V AC,
50/60 Hz
0,7 48/24 56 2 500 B -51/ Z-51
PARK LIGHTING / LIGHTING COLUMNS
121. 126
STREET LIGHTING
Straight aluminium street columns (height: 6-12,8 m) 122
Extension arms for aluminium street columns 127
Aluminium street columns with welded extension arms (height: 7-11 m) 136
Two-piece aluminium columns with curved extension arms (height: 8,5-12 m) 142
Decorative aluminium street columns (height: 6,6-9,4 m) 146
Aluminium lowering and raising columns (height: 4,5-10 m) 150
Straight aluminium light masts (height: 12,5-16 m) 154
Extension arms for aluminium light masts 155
Aluminium light mast with curved extension arms (height: 12-14 m) 157
Street luminaires 158
Industrial luminaires 182
Lighting sets 184
Aluminium columns for traffic signal lights (height: 3-6,5 m) 186
Aluminium flag poles (height: 6-16 m) 189
Individual projects 190
122. 127
STREET LIGHTING
Our lighting gives the unique nature of each street. We specialize
in products made of anodised aluminium, which not only protects
the products against corrosion, but also gives them a decorative
nature. Wide choice of street columns, extension arms, masts and
luminaires will adjust the lighting to the nature of the street.
Combination of anodised aluminium technology and innovative
LED light source makes that ROSA lighting is durable, economical,
ecological,andatthesametimeaesthetic.Weofferthepossibilityof
making a complete street lighting tailored to our customers needs.
STREETLIGHTING